1 /***************************************************************************
2 * Copyright (C) 2008 by Spencer Oliver *
3 * spen@spen-soft.co.uk *
5 * Copyright (C) 2008 by David T.L. Wong *
7 * Copyright (C) 2009 by David N. Claffey <dnclaffey@gmail.com> *
9 * Copyright (C) 2011 by Drasko DRASKOVIC *
10 * drasko.draskovic@gmail.com *
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 * This version has optimized assembly routines for 32 bit operations:
32 * - write array of words
34 * One thing to be aware of is that the MIPS32 cpu will execute the
35 * instruction after a branch instruction (one delay slot).
42 * The LW $1, ($2 +100) instruction is also executed. If this is
43 * not wanted a NOP can be inserted:
50 * or the code can be changed to:
56 * The original code contained NOPs. I have removed these and moved
59 * I also moved the PRACC_STACK to 0xFF204000. This allows
60 * the use of 16 bits offsets to get pointers to the input
61 * and output area relative to the stack. Note that the stack
62 * isn't really a stack (the stack pointer is not 'moving')
63 * but a FIFO simulated in software.
65 * These changes result in a 35% speed increase when programming an
68 * More improvement could be gained if the registers do no need
69 * to be preserved but in that case the routines should be aware
70 * OpenOCD is used as a flash programmer or as a debug tool.
79 #include <helper/time_support.h>
82 #include "mips32_pracc.h"
84 struct mips32_pracc_context
{
85 uint32_t *local_iparam
;
87 uint32_t *local_oparam
;
93 struct mips_ejtag
*ejtag_info
;
96 static int mips32_pracc_read_mem8(struct mips_ejtag
*ejtag_info
,
97 uint32_t addr
, int count
, uint8_t *buf
);
98 static int mips32_pracc_read_mem16(struct mips_ejtag
*ejtag_info
,
99 uint32_t addr
, int count
, uint16_t *buf
);
100 static int mips32_pracc_read_mem32(struct mips_ejtag
*ejtag_info
,
101 uint32_t addr
, int count
, uint32_t *buf
);
102 static int mips32_pracc_read_u32(struct mips_ejtag
*ejtag_info
,
103 uint32_t addr
, uint32_t *buf
);
105 static int mips32_pracc_write_mem8(struct mips_ejtag
*ejtag_info
,
106 uint32_t addr
, int count
, uint8_t *buf
);
107 static int mips32_pracc_write_mem16(struct mips_ejtag
*ejtag_info
,
108 uint32_t addr
, int count
, uint16_t *buf
);
109 static int mips32_pracc_write_mem32(struct mips_ejtag
*ejtag_info
,
110 uint32_t addr
, int count
, uint32_t *buf
);
111 static int mips32_pracc_write_u32(struct mips_ejtag
*ejtag_info
,
112 uint32_t addr
, uint32_t *buf
);
114 static int mips32_pracc_sync_cache(struct mips_ejtag
*ejtag_info
,
115 uint32_t start_addr
, uint32_t end_addr
);
116 static int mips32_pracc_clean_invalidate_cache(struct mips_ejtag
*ejtag_info
,
117 uint32_t start_addr
, uint32_t end_addr
);
119 static int wait_for_pracc_rw(struct mips_ejtag
*ejtag_info
, uint32_t *ctrl
)
122 long long then
= timeval_ms();
126 /* wait for the PrAcc to become "1" */
127 mips_ejtag_set_instr(ejtag_info
, EJTAG_INST_CONTROL
);
130 ejtag_ctrl
= ejtag_info
->ejtag_ctrl
;
131 retval
= mips_ejtag_drscan_32(ejtag_info
, &ejtag_ctrl
);
132 if (retval
!= ERROR_OK
)
135 if (ejtag_ctrl
& EJTAG_CTRL_PRACC
)
138 timeout
= timeval_ms() - then
;
139 if (timeout
> 1000) {
140 LOG_DEBUG("DEBUGMODULE: No memory access in progress!");
141 return ERROR_JTAG_DEVICE_ERROR
;
149 static int mips32_pracc_exec_read(struct mips32_pracc_context
*ctx
, uint32_t address
)
151 struct mips_ejtag
*ejtag_info
= ctx
->ejtag_info
;
153 uint32_t ejtag_ctrl
, data
;
155 if ((address
>= MIPS32_PRACC_PARAM_IN
)
156 && (address
< MIPS32_PRACC_PARAM_IN
+ ctx
->num_iparam
* 4)) {
157 offset
= (address
- MIPS32_PRACC_PARAM_IN
) / 4;
158 data
= ctx
->local_iparam
[offset
];
159 } else if ((address
>= MIPS32_PRACC_PARAM_OUT
)
160 && (address
< MIPS32_PRACC_PARAM_OUT
+ ctx
->num_oparam
* 4)) {
161 offset
= (address
- MIPS32_PRACC_PARAM_OUT
) / 4;
162 data
= ctx
->local_oparam
[offset
];
163 } else if ((address
>= MIPS32_PRACC_TEXT
)
164 && (address
< MIPS32_PRACC_TEXT
+ ctx
->code_len
* 4)) {
165 offset
= (address
- MIPS32_PRACC_TEXT
) / 4;
166 data
= ctx
->code
[offset
];
167 } else if (address
== MIPS32_PRACC_STACK
) {
168 if (ctx
->stack_offset
<= 0) {
169 LOG_ERROR("Error: Pracc stack out of bounds");
170 return ERROR_JTAG_DEVICE_ERROR
;
172 /* save to our debug stack */
173 data
= ctx
->stack
[--ctx
->stack_offset
];
175 /* TODO: send JMP 0xFF200000 instruction. Hopefully processor jump back
176 * to start of debug vector */
178 LOG_ERROR("Error reading unexpected address 0x%8.8" PRIx32
"", address
);
179 return ERROR_JTAG_DEVICE_ERROR
;
182 /* Send the data out */
183 mips_ejtag_set_instr(ctx
->ejtag_info
, EJTAG_INST_DATA
);
184 mips_ejtag_drscan_32_out(ctx
->ejtag_info
, data
);
186 /* Clear the access pending bit (let the processor eat!) */
187 ejtag_ctrl
= ejtag_info
->ejtag_ctrl
& ~EJTAG_CTRL_PRACC
;
188 mips_ejtag_set_instr(ctx
->ejtag_info
, EJTAG_INST_CONTROL
);
189 mips_ejtag_drscan_32_out(ctx
->ejtag_info
, ejtag_ctrl
);
191 return jtag_execute_queue();
194 static int mips32_pracc_exec_write(struct mips32_pracc_context
*ctx
, uint32_t address
)
196 uint32_t ejtag_ctrl
, data
;
198 struct mips_ejtag
*ejtag_info
= ctx
->ejtag_info
;
201 mips_ejtag_set_instr(ctx
->ejtag_info
, EJTAG_INST_DATA
);
202 retval
= mips_ejtag_drscan_32(ctx
->ejtag_info
, &data
);
203 if (retval
!= ERROR_OK
)
206 /* Clear access pending bit */
207 ejtag_ctrl
= ejtag_info
->ejtag_ctrl
& ~EJTAG_CTRL_PRACC
;
208 mips_ejtag_set_instr(ctx
->ejtag_info
, EJTAG_INST_CONTROL
);
209 mips_ejtag_drscan_32_out(ctx
->ejtag_info
, ejtag_ctrl
);
211 retval
= jtag_execute_queue();
212 if (retval
!= ERROR_OK
)
215 if ((address
>= MIPS32_PRACC_PARAM_IN
)
216 && (address
< MIPS32_PRACC_PARAM_IN
+ ctx
->num_iparam
* 4)) {
217 offset
= (address
- MIPS32_PRACC_PARAM_IN
) / 4;
218 ctx
->local_iparam
[offset
] = data
;
219 } else if ((address
>= MIPS32_PRACC_PARAM_OUT
)
220 && (address
< MIPS32_PRACC_PARAM_OUT
+ ctx
->num_oparam
* 4)) {
221 offset
= (address
- MIPS32_PRACC_PARAM_OUT
) / 4;
222 ctx
->local_oparam
[offset
] = data
;
223 } else if (address
== MIPS32_PRACC_STACK
) {
224 if (ctx
->stack_offset
>= 32) {
225 LOG_ERROR("Error: Pracc stack out of bounds");
226 return ERROR_JTAG_DEVICE_ERROR
;
228 /* save data onto our stack */
229 ctx
->stack
[ctx
->stack_offset
++] = data
;
231 LOG_ERROR("Error writing unexpected address 0x%8.8" PRIx32
"", address
);
232 return ERROR_JTAG_DEVICE_ERROR
;
238 int mips32_pracc_exec(struct mips_ejtag
*ejtag_info
, int code_len
, const uint32_t *code
,
239 int num_param_in
, uint32_t *param_in
, int num_param_out
, uint32_t *param_out
, int cycle
)
243 struct mips32_pracc_context ctx
;
247 ctx
.local_iparam
= param_in
;
248 ctx
.local_oparam
= param_out
;
249 ctx
.num_iparam
= num_param_in
;
250 ctx
.num_oparam
= num_param_out
;
252 ctx
.code_len
= code_len
;
253 ctx
.ejtag_info
= ejtag_info
;
254 ctx
.stack_offset
= 0;
257 retval
= wait_for_pracc_rw(ejtag_info
, &ejtag_ctrl
);
258 if (retval
!= ERROR_OK
)
262 mips_ejtag_set_instr(ejtag_info
, EJTAG_INST_ADDRESS
);
263 retval
= mips_ejtag_drscan_32(ejtag_info
, &address
);
264 if (retval
!= ERROR_OK
)
267 /* Check for read or write */
268 if (ejtag_ctrl
& EJTAG_CTRL_PRNW
) {
269 retval
= mips32_pracc_exec_write(&ctx
, address
);
270 if (retval
!= ERROR_OK
)
273 /* Check to see if its reading at the debug vector. The first pass through
274 * the module is always read at the vector, so the first one we allow. When
275 * the second read from the vector occurs we are done and just exit. */
276 if ((address
== MIPS32_PRACC_TEXT
) && (pass
++))
279 retval
= mips32_pracc_exec_read(&ctx
, address
);
280 if (retval
!= ERROR_OK
)
288 /* stack sanity check */
289 if (ctx
.stack_offset
!= 0)
290 LOG_DEBUG("Pracc Stack not zero");
295 int mips32_pracc_read_mem(struct mips_ejtag
*ejtag_info
, uint32_t addr
, int size
, int count
, void *buf
)
299 return mips32_pracc_read_mem8(ejtag_info
, addr
, count
, (uint8_t *)buf
);
301 return mips32_pracc_read_mem16(ejtag_info
, addr
, count
, (uint16_t *)buf
);
304 return mips32_pracc_read_u32(ejtag_info
, addr
, (uint32_t *)buf
);
306 return mips32_pracc_read_mem32(ejtag_info
, addr
, count
, (uint32_t *)buf
);
312 static int mips32_pracc_read_mem32(struct mips_ejtag
*ejtag_info
, uint32_t addr
, int count
, uint32_t *buf
)
314 static const uint32_t code
[] = {
316 MIPS32_MTC0(15, 31, 0), /* move $15 to COP0 DeSave */
317 MIPS32_LUI(15, UPPER16(MIPS32_PRACC_STACK
)), /* $15 = MIPS32_PRACC_STACK */
318 MIPS32_ORI(15, 15, LOWER16(MIPS32_PRACC_STACK
)),
319 MIPS32_SW(8, 0, 15), /* sw $8,($15) */
320 MIPS32_SW(9, 0, 15), /* sw $9,($15) */
321 MIPS32_SW(10, 0, 15), /* sw $10,($15) */
322 MIPS32_SW(11, 0, 15), /* sw $11,($15) */
324 MIPS32_LUI(8, UPPER16(MIPS32_PRACC_PARAM_IN
)), /* $8 = MIPS32_PRACC_PARAM_IN */
325 MIPS32_ORI(8, 8, LOWER16(MIPS32_PRACC_PARAM_IN
)),
326 MIPS32_LW(9, 0, 8), /* $9 = mem[$8]; read addr */
327 MIPS32_LW(10, 4, 8), /* $10 = mem[$8 + 4]; read count */
328 MIPS32_LUI(11, UPPER16(MIPS32_PRACC_PARAM_OUT
)), /* $11 = MIPS32_PRACC_PARAM_OUT */
329 MIPS32_ORI(11, 11, LOWER16(MIPS32_PRACC_PARAM_OUT
)),
331 MIPS32_BEQ(0, 10, 8), /* beq 0, $10, end */
334 MIPS32_LW(8, 0, 9), /* lw $8,0($9), Load $8 with the word @mem[$9] */
335 MIPS32_SW(8, 0, 11), /* sw $8,0($11) */
337 MIPS32_ADDI(10, 10, NEG16(1)), /* $10-- */
338 MIPS32_ADDI(9, 9, 4), /* $1 += 4 */
339 MIPS32_ADDI(11, 11, 4), /* $11 += 4 */
341 MIPS32_B(NEG16(8)), /* b loop */
344 MIPS32_LW(11, 0, 15), /* lw $11,($15) */
345 MIPS32_LW(10, 0, 15), /* lw $10,($15) */
346 MIPS32_LW(9, 0, 15), /* lw $9,($15) */
347 MIPS32_LW(8, 0, 15), /* lw $8,($15) */
348 MIPS32_B(NEG16(27)), /* b start */
349 MIPS32_MFC0(15, 31, 0), /* move COP0 DeSave to $15 */
352 int retval
= ERROR_OK
;
355 uint32_t param_in
[2];
365 param_in
[1] = blocksize
;
367 retval
= mips32_pracc_exec(ejtag_info
, ARRAY_SIZE(code
), code
,
368 ARRAY_SIZE(param_in
), param_in
, blocksize
, &buf
[wordsread
], 1);
369 if (retval
!= ERROR_OK
)
373 addr
+= blocksize
*sizeof(uint32_t);
374 wordsread
+= blocksize
;
380 static int mips32_pracc_read_u32(struct mips_ejtag
*ejtag_info
, uint32_t addr
, uint32_t *buf
)
382 static const uint32_t code
[] = {
384 MIPS32_MTC0(15, 31, 0), /* move $15 to COP0 DeSave */
385 MIPS32_LUI(15, UPPER16(MIPS32_PRACC_STACK
)), /* $15 = MIPS32_PRACC_STACK */
386 MIPS32_ORI(15, 15, LOWER16(MIPS32_PRACC_STACK
)),
387 MIPS32_SW(8, 0, 15), /* sw $8,($15) */
389 MIPS32_LW(8, NEG16(MIPS32_PRACC_STACK
-MIPS32_PRACC_PARAM_IN
), 15), /* load R8 @ param_in[0] = address */
391 MIPS32_LW(8, 0, 8), /* lw $8,0($8), Load $8 with the word @mem[$8] */
392 MIPS32_SW(8, NEG16(MIPS32_PRACC_STACK
- MIPS32_PRACC_PARAM_OUT
), 15), /* store R8 @ param_out[0] */
394 MIPS32_LW(8, 0, 15), /* lw $8,($15) */
395 MIPS32_B(NEG16(9)), /* b start */
396 MIPS32_MFC0(15, 31, 0), /* move COP0 DeSave to $15 */
399 int retval
= ERROR_OK
;
400 uint32_t param_in
[1];
404 retval
= mips32_pracc_exec(ejtag_info
, ARRAY_SIZE(code
), code
,
405 ARRAY_SIZE(param_in
), param_in
, 1, buf
, 1);
406 if (retval
!= ERROR_OK
)
412 static int mips32_pracc_read_mem16(struct mips_ejtag
*ejtag_info
, uint32_t addr
, int count
, uint16_t *buf
)
414 static const uint32_t code
[] = {
416 MIPS32_MTC0(15, 31, 0), /* move $15 to COP0 DeSave */
417 MIPS32_LUI(15, UPPER16(MIPS32_PRACC_STACK
)), /* $15 = MIPS32_PRACC_STACK */
418 MIPS32_ORI(15, 15, LOWER16(MIPS32_PRACC_STACK
)),
419 MIPS32_SW(8, 0, 15), /* sw $8,($15) */
420 MIPS32_SW(9, 0, 15), /* sw $9,($15) */
421 MIPS32_SW(10, 0, 15), /* sw $10,($15) */
422 MIPS32_SW(11, 0, 15), /* sw $11,($15) */
424 MIPS32_LUI(8, UPPER16(MIPS32_PRACC_PARAM_IN
)), /* $8 = MIPS32_PRACC_PARAM_IN */
425 MIPS32_ORI(8, 8, LOWER16(MIPS32_PRACC_PARAM_IN
)),
426 MIPS32_LW(9, 0, 8), /* $9 = mem[$8]; read addr */
427 MIPS32_LW(10, 4, 8), /* $10 = mem[$8 + 4]; read count */
428 MIPS32_LUI(11, UPPER16(MIPS32_PRACC_PARAM_OUT
)), /* $11 = MIPS32_PRACC_PARAM_OUT */
429 MIPS32_ORI(11, 11, LOWER16(MIPS32_PRACC_PARAM_OUT
)),
431 MIPS32_BEQ(0, 10, 8), /* beq 0, $10, end */
434 MIPS32_LHU(8, 0, 9), /* lw $8,0($9), Load $8 with the halfword @mem[$9] */
435 MIPS32_SW(8, 0, 11), /* sw $8,0($11) */
437 MIPS32_ADDI(10, 10, NEG16(1)), /* $10-- */
438 MIPS32_ADDI(9, 9, 2), /* $9 += 2 */
439 MIPS32_ADDI(11, 11, 4), /* $11 += 4 */
440 MIPS32_B(NEG16(8)), /* b loop */
443 MIPS32_LW(11, 0, 15), /* lw $11,($15) */
444 MIPS32_LW(10, 0, 15), /* lw $10,($15) */
445 MIPS32_LW(9, 0, 15), /* lw $9,($15) */
446 MIPS32_LW(8, 0, 15), /* lw $8,($15) */
447 MIPS32_B(NEG16(27)), /* b start */
448 MIPS32_MFC0(15, 30, 0), /* move COP0 DeSave to $15 */
451 /* TODO remove array */
452 uint32_t *param_out
= malloc(count
* sizeof(uint32_t));
453 if (param_out
== NULL
) {
454 LOG_ERROR("Out of memory");
458 int retval
= ERROR_OK
;
461 uint32_t param_in
[2];
469 param_in
[1] = blocksize
;
471 retval
= mips32_pracc_exec(ejtag_info
, ARRAY_SIZE(code
), code
,
472 ARRAY_SIZE(param_in
), param_in
, blocksize
, ¶m_out
[hwordsread
], 1);
474 if (retval
!= ERROR_OK
)
478 addr
+= blocksize
*sizeof(uint16_t);
479 hwordsread
+= blocksize
;
483 for (i
= 0; i
< hwordsread
; i
++)
484 buf
[i
] = param_out
[i
];
490 static int mips32_pracc_read_mem8(struct mips_ejtag
*ejtag_info
, uint32_t addr
, int count
, uint8_t *buf
)
492 static const uint32_t code
[] = {
494 MIPS32_MTC0(15, 31, 0), /* move $15 to COP0 DeSave */
495 MIPS32_LUI(15, UPPER16(MIPS32_PRACC_STACK
)), /* $15 = MIPS32_PRACC_STACK */
496 MIPS32_ORI(15, 15, LOWER16(MIPS32_PRACC_STACK
)),
497 MIPS32_SW(8, 0, 15), /* sw $8,($15) */
498 MIPS32_SW(9, 0, 15), /* sw $9,($15) */
499 MIPS32_SW(10, 0, 15), /* sw $10,($15) */
500 MIPS32_SW(11, 0, 15), /* sw $11,($15) */
502 MIPS32_LUI(8, UPPER16(MIPS32_PRACC_PARAM_IN
)), /* $8 = MIPS32_PRACC_PARAM_IN */
503 MIPS32_ORI(8, 8, LOWER16(MIPS32_PRACC_PARAM_IN
)),
504 MIPS32_LW(9, 0, 8), /* $9 = mem[$8]; read addr */
505 MIPS32_LW(10, 4, 8), /* $10 = mem[$8 + 4]; read count */
506 MIPS32_LUI(11, UPPER16(MIPS32_PRACC_PARAM_OUT
)), /* $11 = MIPS32_PRACC_PARAM_OUT */
507 MIPS32_ORI(11, 11, LOWER16(MIPS32_PRACC_PARAM_OUT
)),
509 MIPS32_BEQ(0, 10, 8), /* beq 0, $10, end */
512 MIPS32_LBU(8, 0, 9), /* lw $8,0($9), Load t4 with the byte @mem[t1] */
513 MIPS32_SW(8, 0, 11), /* sw $8,0($11) */
515 MIPS32_ADDI(10, 10, NEG16(1)), /* $10-- */
516 MIPS32_ADDI(9, 9, 1), /* $9 += 1 */
517 MIPS32_ADDI(11, 11, 4), /* $11 += 4 */
518 MIPS32_B(NEG16(8)), /* b loop */
521 MIPS32_LW(11, 0, 15), /* lw $11,($15) */
522 MIPS32_LW(10, 0, 15), /* lw $10,($15) */
523 MIPS32_LW(9, 0, 15), /* lw $9,($15) */
524 MIPS32_LW(8, 0, 15), /* lw $8,($15) */
525 MIPS32_B(NEG16(27)), /* b start */
526 MIPS32_MFC0(15, 31, 0), /* move COP0 DeSave to $15 */
529 /* TODO remove array */
530 uint32_t *param_out
= malloc(count
* sizeof(uint32_t));
531 if (param_out
== NULL
) {
532 LOG_ERROR("Out of memory");
536 int retval
= ERROR_OK
;
538 uint32_t param_in
[2];
547 param_in
[1] = blocksize
;
549 retval
= mips32_pracc_exec(ejtag_info
, ARRAY_SIZE(code
), code
,
550 ARRAY_SIZE(param_in
), param_in
, count
, ¶m_out
[bytesread
], 1);
552 if (retval
!= ERROR_OK
)
557 bytesread
+= blocksize
;
560 for (i
= 0; i
< bytesread
; i
++)
561 buf
[i
] = param_out
[i
];
567 int mips32_cp0_read(struct mips_ejtag
*ejtag_info
, uint32_t *val
, uint32_t cp0_reg
, uint32_t cp0_sel
)
570 * Do not make this code static, but regenerate it every time,
571 * as 5th element has to be changed to add parameters
575 MIPS32_MTC0(15, 31, 0), /* move $15 to COP0 DeSave */
576 MIPS32_LUI(15, UPPER16(MIPS32_PRACC_STACK
)), /* $15 = MIPS32_PRACC_STACK */
577 MIPS32_ORI(15, 15, LOWER16(MIPS32_PRACC_STACK
)),
578 MIPS32_SW(8, 0, 15), /* sw $8,($15) */
579 MIPS32_SW(9, 0, 15), /* sw $9,($15) */
581 /* 5 */ MIPS32_MFC0(8, 0, 0), /* move COP0 [cp0_reg select] to $8 */
583 MIPS32_LUI(9, UPPER16(MIPS32_PRACC_PARAM_OUT
)), /* $11 = MIPS32_PRACC_PARAM_OUT */
584 MIPS32_ORI(9, 9, LOWER16(MIPS32_PRACC_PARAM_OUT
)),
585 MIPS32_SW(8, 0, 9), /* sw $8,0($9) */
587 MIPS32_LW(9, 0, 15), /* lw $9,($15) */
588 MIPS32_LW(8, 0, 15), /* lw $8,($15) */
589 MIPS32_B(NEG16(12)), /* b start */
590 MIPS32_MFC0(15, 31, 0), /* move COP0 DeSave to $15 */
594 * Note that our input parametes cp0_reg and cp0_sel
595 * are numbers (not gprs) which make part of mfc0 instruction opcode.
597 * These are not fix, but can be different for each mips32_cp0_read() function call,
598 * and that is why we must insert them directly into opcode,
599 * i.e. we can not pass it on EJTAG microprogram stack (via param_in),
600 * and put them into the gprs later from MIPS32_PRACC_STACK
601 * because mfc0 do not use gpr as a parameter for the cp0_reg and select part,
602 * but plain (immediate) number.
604 * MIPS32_MTC0 is implemented via MIPS32_R_INST macro.
605 * In order to insert our parameters, we must change rd and funct fields.
607 code
[5] |= (cp0_reg
<< 11) | cp0_sel
; /* change rd and funct of MIPS32_R_INST macro */
609 /* TODO remove array */
610 uint32_t *param_out
= val
;
613 retval
= mips32_pracc_exec(ejtag_info
, ARRAY_SIZE(code
), code
, 0, NULL
, 1, param_out
, 1);
618 int mips32_cp0_write(struct mips_ejtag
*ejtag_info
,
619 uint32_t val
, uint32_t cp0_reg
, uint32_t cp0_sel
)
623 MIPS32_MTC0(15, 31, 0), /* move $15 to COP0 DeSave */
624 MIPS32_LUI(15, UPPER16(MIPS32_PRACC_STACK
)), /* $15 = MIPS32_PRACC_STACK */
625 MIPS32_ORI(15, 15, LOWER16(MIPS32_PRACC_STACK
)),
626 MIPS32_SW(8, 0, 15), /* sw $8,($15) */
627 MIPS32_SW(9, 0, 15), /* sw $9,($15) */
629 MIPS32_LUI(8, UPPER16(MIPS32_PRACC_PARAM_IN
)), /* $8 = MIPS32_PRACC_PARAM_IN */
630 MIPS32_ORI(8, 8, LOWER16(MIPS32_PRACC_PARAM_IN
)),
631 MIPS32_LW(9, 0, 8), /* Load write val to $9 */
633 /* 8 */ MIPS32_MTC0(9, 0, 0), /* move $9 to COP0 [cp0_reg select] */
635 MIPS32_LW(9, 0, 15), /* lw $9,($15) */
636 MIPS32_LW(8, 0, 15), /* lw $8,($15) */
637 MIPS32_B(NEG16(12)), /* b start */
638 MIPS32_MFC0(15, 31, 0), /* move COP0 DeSave to $15 */
642 * Note that MIPS32_MTC0 macro is implemented via MIPS32_R_INST macro.
643 * In order to insert our parameters, we must change rd and funct fields.
645 code
[8] |= (cp0_reg
<< 11) | cp0_sel
; /* change rd and funct fields of MIPS32_R_INST macro */
647 /* TODO remove array */
648 uint32_t *param_in
= malloc(1 * sizeof(uint32_t));
652 retval
= mips32_pracc_exec(ejtag_info
, ARRAY_SIZE(code
), code
, 1, param_in
, 0, NULL
, 1);
660 * \b mips32_pracc_sync_cache
662 * Synchronize Caches to Make Instruction Writes Effective
663 * (ref. doc. MIPS32 Architecture For Programmers Volume II: The MIPS32 Instruction Set,
664 * Document Number: MD00086, Revision 2.00, June 9, 2003)
666 * When the instruction stream is written, the SYNCI instruction should be used
667 * in conjunction with other instructions to make the newly-written instructions effective.
670 * A program that loads another program into memory is actually writing the D- side cache.
671 * The instructions it has loaded can't be executed until they reach the I-cache.
673 * After the instructions have been written, the loader should arrange
674 * to write back any containing D-cache line and invalidate any locations
675 * already in the I-cache.
677 * You can do that with cache instructions, but those instructions are only available in kernel mode,
678 * and a loader writing instructions for the use of its own process need not be privileged software.
680 * In the latest MIPS32/64 CPUs, MIPS provides the synci instruction,
681 * which does the whole job for a cache-line-sized chunk of the memory you just loaded:
682 * That is, it arranges a D-cache write-back and an I-cache invalidate.
684 * To employ synci at user level, you need to know the size of a cache line,
685 * and that can be obtained with a rdhwr SYNCI_Step
686 * from one of the standard “hardware registers”.
688 static int mips32_pracc_sync_cache(struct mips_ejtag
*ejtag_info
,
689 uint32_t start_addr
, uint32_t end_addr
)
691 static const uint32_t code
[] = {
693 MIPS32_MTC0(15, 31, 0), /* move $15 to COP0 DeSave */
694 MIPS32_LUI(15, UPPER16(MIPS32_PRACC_STACK
)), /* $15 = MIPS32_PRACC_STACK */
695 MIPS32_ORI(15, 15, LOWER16(MIPS32_PRACC_STACK
)),
696 MIPS32_SW(8, 0, 15), /* sw $8,($15) */
697 MIPS32_SW(9, 0, 15), /* sw $9,($15) */
698 MIPS32_SW(10, 0, 15), /* sw $10,($15) */
699 MIPS32_SW(11, 0, 15), /* sw $11,($15) */
701 MIPS32_LUI(8, UPPER16(MIPS32_PRACC_PARAM_IN
)), /* $8 = MIPS32_PRACC_PARAM_IN */
702 MIPS32_ORI(8, 8, LOWER16(MIPS32_PRACC_PARAM_IN
)),
703 MIPS32_LW(9, 0, 8), /* Load write start_addr to $9 */
704 MIPS32_LW(10, 4, 8), /* Load write end_addr to $10 */
706 MIPS32_RDHWR(11, MIPS32_SYNCI_STEP
), /* $11 = MIPS32_SYNCI_STEP */
707 MIPS32_BEQ(11, 0, 6), /* beq $11, $0, end */
710 MIPS32_SYNCI(0, 9), /* synci 0($9) */
711 MIPS32_SLTU(8, 10, 9), /* sltu $8, $10, $9 # $8 = $10 < $9 ? 1 : 0 */
712 MIPS32_BNE(8, 0, NEG16(3)), /* bne $8, $0, synci_loop */
713 MIPS32_ADDU(9, 9, 11), /* $9 += MIPS32_SYNCI_STEP */
716 MIPS32_LW(11, 0, 15), /* lw $11,($15) */
717 MIPS32_LW(10, 0, 15), /* lw $10,($15) */
718 MIPS32_LW(9, 0, 15), /* lw $9,($15) */
719 MIPS32_LW(8, 0, 15), /* lw $8,($15) */
720 MIPS32_B(NEG16(24)), /* b start */
721 MIPS32_MFC0(15, 31, 0), /* move COP0 DeSave to $15 */
724 /* TODO remove array */
725 uint32_t *param_in
= malloc(2 * sizeof(uint32_t));
727 param_in
[0] = start_addr
;
728 param_in
[1] = end_addr
;
730 retval
= mips32_pracc_exec(ejtag_info
, ARRAY_SIZE(code
), code
, 2, param_in
, 0, NULL
, 1);
738 * \b mips32_pracc_clean_invalidate_cache
740 * Writeback D$ and Invalidate I$
741 * so that the instructions written can be visible to CPU
743 static int mips32_pracc_clean_invalidate_cache(struct mips_ejtag
*ejtag_info
,
744 uint32_t start_addr
, uint32_t end_addr
)
746 static const uint32_t code
[] = {
748 MIPS32_MTC0(15, 31, 0), /* move $15 to COP0 DeSave */
749 MIPS32_LUI(15, UPPER16(MIPS32_PRACC_STACK
)), /* $15 = MIPS32_PRACC_STACK */
750 MIPS32_ORI(15, 15, LOWER16(MIPS32_PRACC_STACK
)),
751 MIPS32_SW(8, 0, 15), /* sw $8,($15) */
752 MIPS32_SW(9, 0, 15), /* sw $9,($15) */
753 MIPS32_SW(10, 0, 15), /* sw $10,($15) */
754 MIPS32_SW(11, 0, 15), /* sw $11,($15) */
756 MIPS32_LUI(8, UPPER16(MIPS32_PRACC_PARAM_IN
)), /* $8 = MIPS32_PRACC_PARAM_IN */
757 MIPS32_ORI(8, 8, LOWER16(MIPS32_PRACC_PARAM_IN
)),
758 MIPS32_LW(9, 0, 8), /* Load write start_addr to $9 */
759 MIPS32_LW(10, 4, 8), /* Load write end_addr to $10 */
760 MIPS32_LW(11, 8, 8), /* Load write clsiz to $11 */
763 MIPS32_SLTU(8, 10, 9), /* sltu $8, $10, $9 : $8 <- $10 < $9 ? */
764 MIPS32_BGTZ(8, 6), /* bgtz $8, end */
767 MIPS32_CACHE(MIPS32_CACHE_D_HIT_WRITEBACK
, 0, 9), /* cache Hit_Writeback_D, 0($9) */
768 MIPS32_CACHE(MIPS32_CACHE_I_HIT_INVALIDATE
, 0, 9), /* cache Hit_Invalidate_I, 0($9) */
770 MIPS32_ADDU(9, 9, 11), /* $9 += $11 */
772 MIPS32_B(NEG16(7)), /* b cache_loop */
775 MIPS32_LW(11, 0, 15), /* lw $11,($15) */
776 MIPS32_LW(10, 0, 15), /* lw $10,($15) */
777 MIPS32_LW(9, 0, 15), /* lw $9,($15) */
778 MIPS32_LW(8, 0, 15), /* lw $8,($15) */
779 MIPS32_B(NEG16(25)), /* b start */
780 MIPS32_MFC0(15, 31, 0), /* move COP0 DeSave to $15 */
784 * Find cache line size in bytes
789 mips32_cp0_read(ejtag_info
, &conf
, 16, 1);
790 dl
= (conf
& MIPS32_CONFIG1_DL_MASK
) >> MIPS32_CONFIG1_DL_SHIFT
;
792 /* dl encoding : dl=1 => 4 bytes, dl=2 => 8 bytes, etc... */
795 /* TODO remove array */
796 uint32_t *param_in
= malloc(3 * sizeof(uint32_t));
798 param_in
[0] = start_addr
;
799 param_in
[1] = end_addr
;
802 retval
= mips32_pracc_exec(ejtag_info
, ARRAY_SIZE(code
), code
, 3, param_in
, 0, NULL
, 1);
810 int mips32_pracc_write_mem(struct mips_ejtag
*ejtag_info
, uint32_t addr
, int size
, int count
, void *buf
)
816 retval
= mips32_pracc_write_mem8(ejtag_info
, addr
, count
, (uint8_t *)buf
);
819 retval
= mips32_pracc_write_mem16(ejtag_info
, addr
, count
, (uint16_t *)buf
);
823 retval
= mips32_pracc_write_u32(ejtag_info
, addr
, (uint32_t *)buf
);
825 retval
= mips32_pracc_write_mem32(ejtag_info
, addr
, count
, (uint32_t *)buf
);
832 * If we are in the cachable regoion and cache is activated,
833 * we must clean D$ + invalidate I$ after we did the write,
834 * so that changes do not continue to live only in D$, but to be
835 * replicated in I$ also (maybe we wrote the istructions)
840 if ((KSEGX(addr
) == KSEG1
) || ((addr
>= 0xff200000) && (addr
<= 0xff3fffff)))
841 return retval
; /*Nothing to do*/
843 mips32_cp0_read(ejtag_info
, &conf
, 16, 0);
845 switch (KSEGX(addr
)) {
847 cached
= (conf
& MIPS32_CONFIG0_KU_MASK
) >> MIPS32_CONFIG0_KU_SHIFT
;
850 cached
= (conf
& MIPS32_CONFIG0_K0_MASK
) >> MIPS32_CONFIG0_K0_SHIFT
;
854 cached
= (conf
& MIPS32_CONFIG0_K23_MASK
) >> MIPS32_CONFIG0_K23_SHIFT
;
862 * Check cachablitiy bits coherency algorithm -
863 * is the region cacheable or uncached.
864 * If cacheable we have to synchronize the cache
867 uint32_t start_addr
, end_addr
;
871 end_addr
= addr
+ count
* size
;
873 /** select cache synchronisation mechanism based on Architecture Release */
874 rel
= (conf
& MIPS32_CONFIG0_AR_MASK
) >> MIPS32_CONFIG0_AR_SHIFT
;
876 case MIPS32_ARCH_REL1
:
877 /* MIPS32/64 Release 1 - we must use cache instruction */
878 mips32_pracc_clean_invalidate_cache(ejtag_info
, start_addr
, end_addr
);
880 case MIPS32_ARCH_REL2
:
881 /* MIPS32/64 Release 2 - we can use synci instruction */
882 mips32_pracc_sync_cache(ejtag_info
, start_addr
, end_addr
);
893 static int mips32_pracc_write_mem32(struct mips_ejtag
*ejtag_info
, uint32_t addr
, int count
, uint32_t *buf
)
895 static const uint32_t code
[] = {
897 MIPS32_MTC0(15, 31, 0), /* move $15 to COP0 DeSave */
898 MIPS32_LUI(15, UPPER16(MIPS32_PRACC_STACK
)), /* $15 = MIPS32_PRACC_STACK */
899 MIPS32_ORI(15, 15, LOWER16(MIPS32_PRACC_STACK
)),
900 MIPS32_SW(8, 0, 15), /* sw $8,($15) */
901 MIPS32_SW(9, 0, 15), /* sw $9,($15) */
902 MIPS32_SW(10, 0, 15), /* sw $10,($15) */
903 MIPS32_SW(11, 0, 15), /* sw $11,($15) */
905 MIPS32_ADDI(8, 15, NEG16(MIPS32_PRACC_STACK
-MIPS32_PRACC_PARAM_IN
)), /* $8= MIPS32_PRACC_PARAM_IN */
906 MIPS32_LW(9, 0, 8), /* Load write addr to $9 */
907 MIPS32_LW(10, 4, 8), /* Load write count to $10 */
908 MIPS32_ADDI(8, 8, 8), /* $8 += 8 beginning of data */
911 MIPS32_LW(11, 0, 8), /* lw $11,0($8), Load $11 with the word @mem[$8] */
912 MIPS32_SW(11, 0, 9), /* sw $11,0($9) */
914 MIPS32_ADDI(9, 9, 4), /* $9 += 4 */
915 MIPS32_BNE(10, 9, NEG16(4)), /* bne $10, $9, loop */
916 MIPS32_ADDI(8, 8, 4), /* $8 += 4 */
919 MIPS32_LW(11, 0, 15), /* lw $11,($15) */
920 MIPS32_LW(10, 0, 15), /* lw $10,($15) */
921 MIPS32_LW(9, 0, 15), /* lw $9,($15) */
922 MIPS32_LW(8, 0, 15), /* lw $8,($15) */
923 MIPS32_B(NEG16(21)), /* b start */
924 MIPS32_MFC0(15, 31, 0), /* move COP0 DeSave to $15 */
927 /* TODO remove array */
928 uint32_t *param_in
= malloc((count
+ 2) * sizeof(uint32_t));
930 param_in
[1] = addr
+ (count
* sizeof(uint32_t)); /* last address */
932 memcpy(¶m_in
[2], buf
, count
* sizeof(uint32_t));
935 retval
= mips32_pracc_exec(ejtag_info
, ARRAY_SIZE(code
), code
,
936 count
+ 2, param_in
, 0, NULL
, 1);
943 static int mips32_pracc_write_u32(struct mips_ejtag
*ejtag_info
, uint32_t addr
, uint32_t *buf
)
945 static const uint32_t code
[] = {
947 MIPS32_MTC0(15, 31, 0), /* move $15 to COP0 DeSave */
948 MIPS32_LUI(15, UPPER16(MIPS32_PRACC_STACK
)), /* $15 = MIPS32_PRACC_STACK */
949 MIPS32_ORI(15, 15, LOWER16(MIPS32_PRACC_STACK
)),
950 MIPS32_SW(8, 0, 15), /* sw $8,($15) */
951 MIPS32_SW(9, 0, 15), /* sw $9,($15) */
953 MIPS32_LW(8, NEG16((MIPS32_PRACC_STACK
-MIPS32_PRACC_PARAM_IN
)-4), 15), /* load R8 @ param_in[1] = data */
954 MIPS32_LW(9, NEG16(MIPS32_PRACC_STACK
-MIPS32_PRACC_PARAM_IN
), 15), /* load R9 @ param_in[0] = address */
956 MIPS32_SW(8, 0, 9), /* sw $8,0($9) */
958 MIPS32_LW(9, 0, 15), /* lw $9,($15) */
959 MIPS32_LW(8, 0, 15), /* lw $8,($15) */
960 MIPS32_B(NEG16(11)), /* b start */
961 MIPS32_MFC0(15, 31, 0), /* move COP0 DeSave to $15 */
964 /* TODO remove array */
965 uint32_t param_in
[1 + 1];
969 return mips32_pracc_exec(ejtag_info
, ARRAY_SIZE(code
), code
,
970 ARRAY_SIZE(param_in
), param_in
, 0, NULL
, 1);
973 static int mips32_pracc_write_mem16(struct mips_ejtag
*ejtag_info
, uint32_t addr
, int count
, uint16_t *buf
)
975 static const uint32_t code
[] = {
977 MIPS32_MTC0(15, 31, 0), /* move $15 to COP0 DeSave */
978 MIPS32_LUI(15, UPPER16(MIPS32_PRACC_STACK
)), /* $15 = MIPS32_PRACC_STACK */
979 MIPS32_ORI(15, 15, LOWER16(MIPS32_PRACC_STACK
)),
980 MIPS32_SW(8, 0, 15), /* sw $8,($15) */
981 MIPS32_SW(9, 0, 15), /* sw $9,($15) */
982 MIPS32_SW(10, 0, 15), /* sw $10,($15) */
983 MIPS32_SW(11, 0, 15), /* sw $11,($15) */
985 MIPS32_LUI(8, UPPER16(MIPS32_PRACC_PARAM_IN
)), /* $8 = MIPS32_PRACC_PARAM_IN */
986 MIPS32_ORI(8, 8, LOWER16(MIPS32_PRACC_PARAM_IN
)),
987 MIPS32_LW(9, 0, 8), /* Load write addr to $9 */
988 MIPS32_LW(10, 4, 8), /* Load write count to $10 */
989 MIPS32_ADDI(8, 8, 8), /* $8 += 8 */
991 MIPS32_BEQ(0, 10, 8), /* beq $0, $10, end */
994 MIPS32_LW(11, 0, 8), /* lw $11,0($8), Load $11 with the word @mem[$8] */
995 MIPS32_SH(11, 0, 9), /* sh $11,0($9) */
997 MIPS32_ADDI(10, 10, NEG16(1)), /* $10-- */
998 MIPS32_ADDI(9, 9, 2), /* $9 += 2 */
999 MIPS32_ADDI(8, 8, 4), /* $8 += 4 */
1001 MIPS32_B(NEG16(8)), /* b loop */
1004 MIPS32_LW(11, 0, 15), /* lw $11,($15) */
1005 MIPS32_LW(10, 0, 15), /* lw $10,($15) */
1006 MIPS32_LW(9, 0, 15), /* lw $9,($15) */
1007 MIPS32_LW(8, 0, 15), /* lw $8,($15) */
1008 MIPS32_B(NEG16(26)), /* b start */
1009 MIPS32_MFC0(15, 31, 0), /* move COP0 DeSave to $15 */
1012 /* TODO remove array */
1013 uint32_t *param_in
= malloc((count
+ 2) * sizeof(uint32_t));
1016 param_in
[1] = count
;
1018 for (i
= 0; i
< count
; i
++)
1019 param_in
[i
+ 2] = buf
[i
];
1022 retval
= mips32_pracc_exec(ejtag_info
, ARRAY_SIZE(code
), code
,
1023 count
+ 2, param_in
, 0, NULL
, 1);
1030 static int mips32_pracc_write_mem8(struct mips_ejtag
*ejtag_info
, uint32_t addr
, int count
, uint8_t *buf
)
1032 static const uint32_t code
[] = {
1034 MIPS32_MTC0(15, 31, 0), /* move $15 to COP0 DeSave */
1035 MIPS32_LUI(15, UPPER16(MIPS32_PRACC_STACK
)), /* $15 = MIPS32_PRACC_STACK */
1036 MIPS32_ORI(15, 15, LOWER16(MIPS32_PRACC_STACK
)),
1037 MIPS32_SW(8, 0, 15), /* sw $8,($15) */
1038 MIPS32_SW(9, 0, 15), /* sw $9,($15) */
1039 MIPS32_SW(10, 0, 15), /* sw $10,($15) */
1040 MIPS32_SW(11, 0, 15), /* sw $11,($15) */
1042 MIPS32_LUI(8, UPPER16(MIPS32_PRACC_PARAM_IN
)), /* $8 = MIPS32_PRACC_PARAM_IN */
1043 MIPS32_ORI(8, 8, LOWER16(MIPS32_PRACC_PARAM_IN
)),
1044 MIPS32_LW(9, 0, 8), /* Load write addr to $9 */
1045 MIPS32_LW(10, 4, 8), /* Load write count to $10 */
1046 MIPS32_ADDI(8, 8, 8), /* $8 += 8 */
1048 MIPS32_BEQ(0, 10, 8), /* beq $0, $10, end */
1051 MIPS32_LW(11, 0, 8), /* lw $11,0($8), Load $11 with the word @mem[$8] */
1052 MIPS32_SB(11, 0, 9), /* sb $11,0($9) */
1054 MIPS32_ADDI(10, 10, NEG16(1)), /* $10-- */
1055 MIPS32_ADDI(9, 9, 1), /* $9 += 1 */
1056 MIPS32_ADDI(8, 8, 4), /* $8 += 4 */
1058 MIPS32_B(NEG16(8)), /* b loop */
1061 MIPS32_LW(11, 0, 15), /* lw $11,($15) */
1062 MIPS32_LW(10, 0, 15), /* lw $10,($15) */
1063 MIPS32_LW(9, 0, 15), /* lw $9,($15) */
1064 MIPS32_LW(8, 0, 15), /* lw $8,($15) */
1065 MIPS32_B(NEG16(26)), /* b start */
1066 MIPS32_MFC0(15, 31, 0), /* move COP0 DeSave to $15 */
1069 /* TODO remove array */
1070 uint32_t *param_in
= malloc((count
+ 2) * sizeof(uint32_t));
1074 param_in
[1] = count
;
1076 for (i
= 0; i
< count
; i
++)
1077 param_in
[i
+ 2] = buf
[i
];
1079 retval
= mips32_pracc_exec(ejtag_info
, ARRAY_SIZE(code
), code
,
1080 count
+ 2, param_in
, 0, NULL
, 1);
1087 int mips32_pracc_write_regs(struct mips_ejtag
*ejtag_info
, uint32_t *regs
)
1089 static const uint32_t code
[] = {
1091 MIPS32_LUI(2, UPPER16(MIPS32_PRACC_PARAM_IN
)), /* $2 = MIPS32_PRACC_PARAM_IN */
1092 MIPS32_ORI(2, 2, LOWER16(MIPS32_PRACC_PARAM_IN
)),
1093 MIPS32_LW(1, 1*4, 2), /* lw $1,1*4($2) */
1094 MIPS32_LW(15, 15*4, 2), /* lw $15,15*4($2) */
1095 MIPS32_MTC0(15, 31, 0), /* move $15 to COP0 DeSave */
1096 MIPS32_LUI(15, UPPER16(MIPS32_PRACC_STACK
)), /* $15 = MIPS32_PRACC_STACK */
1097 MIPS32_ORI(15, 15, LOWER16(MIPS32_PRACC_STACK
)),
1098 MIPS32_SW(1, 0, 15), /* sw $1,($15) */
1099 MIPS32_LUI(1, UPPER16(MIPS32_PRACC_PARAM_IN
)), /* $1 = MIPS32_PRACC_PARAM_IN */
1100 MIPS32_ORI(1, 1, LOWER16(MIPS32_PRACC_PARAM_IN
)),
1101 MIPS32_LW(3, 3*4, 1), /* lw $3,3*4($1) */
1102 MIPS32_LW(4, 4*4, 1), /* lw $4,4*4($1) */
1103 MIPS32_LW(5, 5*4, 1), /* lw $5,5*4($1) */
1104 MIPS32_LW(6, 6*4, 1), /* lw $6,6*4($1) */
1105 MIPS32_LW(7, 7*4, 1), /* lw $7,7*4($1) */
1106 MIPS32_LW(8, 8*4, 1), /* lw $8,8*4($1) */
1107 MIPS32_LW(9, 9*4, 1), /* lw $9,9*4($1) */
1108 MIPS32_LW(10, 10*4, 1), /* lw $10,10*4($1) */
1109 MIPS32_LW(11, 11*4, 1), /* lw $11,11*4($1) */
1110 MIPS32_LW(12, 12*4, 1), /* lw $12,12*4($1) */
1111 MIPS32_LW(13, 13*4, 1), /* lw $13,13*4($1) */
1112 MIPS32_LW(14, 14*4, 1), /* lw $14,14*4($1) */
1113 MIPS32_LW(16, 16*4, 1), /* lw $16,16*4($1) */
1114 MIPS32_LW(17, 17*4, 1), /* lw $17,17*4($1) */
1115 MIPS32_LW(18, 18*4, 1), /* lw $18,18*4($1) */
1116 MIPS32_LW(19, 19*4, 1), /* lw $19,19*4($1) */
1117 MIPS32_LW(20, 20*4, 1), /* lw $20,20*4($1) */
1118 MIPS32_LW(21, 21*4, 1), /* lw $21,21*4($1) */
1119 MIPS32_LW(22, 22*4, 1), /* lw $22,22*4($1) */
1120 MIPS32_LW(23, 23*4, 1), /* lw $23,23*4($1) */
1121 MIPS32_LW(24, 24*4, 1), /* lw $24,24*4($1) */
1122 MIPS32_LW(25, 25*4, 1), /* lw $25,25*4($1) */
1123 MIPS32_LW(26, 26*4, 1), /* lw $26,26*4($1) */
1124 MIPS32_LW(27, 27*4, 1), /* lw $27,27*4($1) */
1125 MIPS32_LW(28, 28*4, 1), /* lw $28,28*4($1) */
1126 MIPS32_LW(29, 29*4, 1), /* lw $29,29*4($1) */
1127 MIPS32_LW(30, 30*4, 1), /* lw $30,30*4($1) */
1128 MIPS32_LW(31, 31*4, 1), /* lw $31,31*4($1) */
1130 MIPS32_LW(2, 32*4, 1), /* lw $2,32*4($1) */
1131 MIPS32_MTC0(2, 12, 0), /* move $2 to status */
1132 MIPS32_LW(2, 33*4, 1), /* lw $2,33*4($1) */
1133 MIPS32_MTLO(2), /* move $2 to lo */
1134 MIPS32_LW(2, 34*4, 1), /* lw $2,34*4($1) */
1135 MIPS32_MTHI(2), /* move $2 to hi */
1136 MIPS32_LW(2, 35*4, 1), /* lw $2,35*4($1) */
1137 MIPS32_MTC0(2, 8, 0), /* move $2 to badvaddr */
1138 MIPS32_LW(2, 36*4, 1), /* lw $2,36*4($1) */
1139 MIPS32_MTC0(2, 13, 0), /* move $2 to cause*/
1140 MIPS32_LW(2, 37*4, 1), /* lw $2,37*4($1) */
1141 MIPS32_MTC0(2, 24, 0), /* move $2 to depc (pc) */
1143 MIPS32_LW(2, 2*4, 1), /* lw $2,2*4($1) */
1144 MIPS32_LW(1, 0, 15), /* lw $1,($15) */
1145 MIPS32_B(NEG16(53)), /* b start */
1146 MIPS32_MFC0(15, 31, 0), /* move COP0 DeSave to $15 */
1151 retval
= mips32_pracc_exec(ejtag_info
, ARRAY_SIZE(code
), code
,
1152 MIPS32NUMCOREREGS
, regs
, 0, NULL
, 1);
1157 int mips32_pracc_read_regs(struct mips_ejtag
*ejtag_info
, uint32_t *regs
)
1159 static const uint32_t code
[] = {
1161 MIPS32_MTC0(2, 31, 0), /* move $2 to COP0 DeSave */
1162 MIPS32_LUI(2, UPPER16(MIPS32_PRACC_PARAM_OUT
)), /* $2 = MIPS32_PRACC_PARAM_OUT */
1163 MIPS32_ORI(2, 2, LOWER16(MIPS32_PRACC_PARAM_OUT
)),
1164 MIPS32_SW(0, 0*4, 2), /* sw $0,0*4($2) */
1165 MIPS32_SW(1, 1*4, 2), /* sw $1,1*4($2) */
1166 MIPS32_SW(15, 15*4, 2), /* sw $15,15*4($2) */
1167 MIPS32_MFC0(2, 31, 0), /* move COP0 DeSave to $2 */
1168 MIPS32_MTC0(15, 31, 0), /* move $15 to COP0 DeSave */
1169 MIPS32_LUI(15, UPPER16(MIPS32_PRACC_STACK
)), /* $15 = MIPS32_PRACC_STACK */
1170 MIPS32_ORI(15, 15, LOWER16(MIPS32_PRACC_STACK
)),
1171 MIPS32_SW(1, 0, 15), /* sw $1,($15) */
1172 MIPS32_SW(2, 0, 15), /* sw $2,($15) */
1173 MIPS32_LUI(1, UPPER16(MIPS32_PRACC_PARAM_OUT
)), /* $1 = MIPS32_PRACC_PARAM_OUT */
1174 MIPS32_ORI(1, 1, LOWER16(MIPS32_PRACC_PARAM_OUT
)),
1175 MIPS32_SW(2, 2*4, 1), /* sw $2,2*4($1) */
1176 MIPS32_SW(3, 3*4, 1), /* sw $3,3*4($1) */
1177 MIPS32_SW(4, 4*4, 1), /* sw $4,4*4($1) */
1178 MIPS32_SW(5, 5*4, 1), /* sw $5,5*4($1) */
1179 MIPS32_SW(6, 6*4, 1), /* sw $6,6*4($1) */
1180 MIPS32_SW(7, 7*4, 1), /* sw $7,7*4($1) */
1181 MIPS32_SW(8, 8*4, 1), /* sw $8,8*4($1) */
1182 MIPS32_SW(9, 9*4, 1), /* sw $9,9*4($1) */
1183 MIPS32_SW(10, 10*4, 1), /* sw $10,10*4($1) */
1184 MIPS32_SW(11, 11*4, 1), /* sw $11,11*4($1) */
1185 MIPS32_SW(12, 12*4, 1), /* sw $12,12*4($1) */
1186 MIPS32_SW(13, 13*4, 1), /* sw $13,13*4($1) */
1187 MIPS32_SW(14, 14*4, 1), /* sw $14,14*4($1) */
1188 MIPS32_SW(16, 16*4, 1), /* sw $16,16*4($1) */
1189 MIPS32_SW(17, 17*4, 1), /* sw $17,17*4($1) */
1190 MIPS32_SW(18, 18*4, 1), /* sw $18,18*4($1) */
1191 MIPS32_SW(19, 19*4, 1), /* sw $19,19*4($1) */
1192 MIPS32_SW(20, 20*4, 1), /* sw $20,20*4($1) */
1193 MIPS32_SW(21, 21*4, 1), /* sw $21,21*4($1) */
1194 MIPS32_SW(22, 22*4, 1), /* sw $22,22*4($1) */
1195 MIPS32_SW(23, 23*4, 1), /* sw $23,23*4($1) */
1196 MIPS32_SW(24, 24*4, 1), /* sw $24,24*4($1) */
1197 MIPS32_SW(25, 25*4, 1), /* sw $25,25*4($1) */
1198 MIPS32_SW(26, 26*4, 1), /* sw $26,26*4($1) */
1199 MIPS32_SW(27, 27*4, 1), /* sw $27,27*4($1) */
1200 MIPS32_SW(28, 28*4, 1), /* sw $28,28*4($1) */
1201 MIPS32_SW(29, 29*4, 1), /* sw $29,29*4($1) */
1202 MIPS32_SW(30, 30*4, 1), /* sw $30,30*4($1) */
1203 MIPS32_SW(31, 31*4, 1), /* sw $31,31*4($1) */
1205 MIPS32_MFC0(2, 12, 0), /* move status to $2 */
1206 MIPS32_SW(2, 32*4, 1), /* sw $2,32*4($1) */
1207 MIPS32_MFLO(2), /* move lo to $2 */
1208 MIPS32_SW(2, 33*4, 1), /* sw $2,33*4($1) */
1209 MIPS32_MFHI(2), /* move hi to $2 */
1210 MIPS32_SW(2, 34*4, 1), /* sw $2,34*4($1) */
1211 MIPS32_MFC0(2, 8, 0), /* move badvaddr to $2 */
1212 MIPS32_SW(2, 35*4, 1), /* sw $2,35*4($1) */
1213 MIPS32_MFC0(2, 13, 0), /* move cause to $2 */
1214 MIPS32_SW(2, 36*4, 1), /* sw $2,36*4($1) */
1215 MIPS32_MFC0(2, 24, 0), /* move depc (pc) to $2 */
1216 MIPS32_SW(2, 37*4, 1), /* sw $2,37*4($1) */
1218 MIPS32_LW(2, 0, 15), /* lw $2,($15) */
1219 MIPS32_LW(1, 0, 15), /* lw $1,($15) */
1220 MIPS32_B(NEG16(58)), /* b start */
1221 MIPS32_MFC0(15, 31, 0), /* move COP0 DeSave to $15 */
1226 retval
= mips32_pracc_exec(ejtag_info
, ARRAY_SIZE(code
), code
,
1227 0, NULL
, MIPS32NUMCOREREGS
, regs
, 1);
1232 /* fastdata upload/download requires an initialized working area
1233 * to load the download code; it should not be called otherwise
1234 * fetch order from the fastdata area
1239 int mips32_pracc_fastdata_xfer(struct mips_ejtag
*ejtag_info
, struct working_area
*source
,
1240 int write_t
, uint32_t addr
, int count
, uint32_t *buf
)
1242 uint32_t handler_code
[] = {
1243 /* caution when editing, table is modified below */
1244 /* r15 points to the start of this code */
1245 MIPS32_SW(8, MIPS32_FASTDATA_HANDLER_SIZE
- 4, 15),
1246 MIPS32_SW(9, MIPS32_FASTDATA_HANDLER_SIZE
- 8, 15),
1247 MIPS32_SW(10, MIPS32_FASTDATA_HANDLER_SIZE
- 12, 15),
1248 MIPS32_SW(11, MIPS32_FASTDATA_HANDLER_SIZE
- 16, 15),
1249 /* start of fastdata area in t0 */
1250 MIPS32_LUI(8, UPPER16(MIPS32_PRACC_FASTDATA_AREA
)),
1251 MIPS32_ORI(8, 8, LOWER16(MIPS32_PRACC_FASTDATA_AREA
)),
1252 MIPS32_LW(9, 0, 8), /* start addr in t1 */
1253 MIPS32_LW(10, 0, 8), /* end addr to t2 */
1255 /* 8 */ MIPS32_LW(11, 0, 0), /* lw t3,[t8 | r9] */
1256 /* 9 */ MIPS32_SW(11, 0, 0), /* sw t3,[r9 | r8] */
1257 MIPS32_BNE(10, 9, NEG16(3)), /* bne $t2,t1,loop */
1258 MIPS32_ADDI(9, 9, 4), /* addi t1,t1,4 */
1260 MIPS32_LW(8, MIPS32_FASTDATA_HANDLER_SIZE
- 4, 15),
1261 MIPS32_LW(9, MIPS32_FASTDATA_HANDLER_SIZE
- 8, 15),
1262 MIPS32_LW(10, MIPS32_FASTDATA_HANDLER_SIZE
- 12, 15),
1263 MIPS32_LW(11, MIPS32_FASTDATA_HANDLER_SIZE
- 16, 15),
1265 MIPS32_LUI(15, UPPER16(MIPS32_PRACC_TEXT
)),
1266 MIPS32_ORI(15, 15, LOWER16(MIPS32_PRACC_TEXT
)),
1267 MIPS32_JR(15), /* jr start */
1268 MIPS32_MFC0(15, 31, 0), /* move COP0 DeSave to $15 */
1271 uint32_t jmp_code
[] = {
1272 MIPS32_MTC0(15, 31, 0), /* move $15 to COP0 DeSave */
1273 /* 1 */ MIPS32_LUI(15, 0), /* addr of working area added below */
1274 /* 2 */ MIPS32_ORI(15, 15, 0), /* addr of working area added below */
1275 MIPS32_JR(15), /* jump to ram program */
1280 uint32_t val
, ejtag_ctrl
, address
;
1282 if (source
->size
< MIPS32_FASTDATA_HANDLER_SIZE
)
1283 return ERROR_TARGET_RESOURCE_NOT_AVAILABLE
;
1286 handler_code
[8] = MIPS32_LW(11, 0, 8); /* load data from probe at fastdata area */
1287 handler_code
[9] = MIPS32_SW(11, 0, 9); /* store data to RAM @ r9 */
1289 handler_code
[8] = MIPS32_LW(11, 0, 9); /* load data from RAM @ r9 */
1290 handler_code
[9] = MIPS32_SW(11, 0, 8); /* store data to probe at fastdata area */
1293 /* write program into RAM */
1294 if (write_t
!= ejtag_info
->fast_access_save
) {
1295 mips32_pracc_write_mem32(ejtag_info
, source
->address
, ARRAY_SIZE(handler_code
), handler_code
);
1296 /* save previous operation to speed to any consecutive read/writes */
1297 ejtag_info
->fast_access_save
= write_t
;
1300 LOG_DEBUG("%s using 0x%.8" PRIx32
" for write handler", __func__
, source
->address
);
1302 jmp_code
[1] |= UPPER16(source
->address
);
1303 jmp_code
[2] |= LOWER16(source
->address
);
1305 for (i
= 0; i
< (int) ARRAY_SIZE(jmp_code
); i
++) {
1306 retval
= wait_for_pracc_rw(ejtag_info
, &ejtag_ctrl
);
1307 if (retval
!= ERROR_OK
)
1310 mips_ejtag_set_instr(ejtag_info
, EJTAG_INST_DATA
);
1311 mips_ejtag_drscan_32_out(ejtag_info
, jmp_code
[i
]);
1313 /* Clear the access pending bit (let the processor eat!) */
1314 ejtag_ctrl
= ejtag_info
->ejtag_ctrl
& ~EJTAG_CTRL_PRACC
;
1315 mips_ejtag_set_instr(ejtag_info
, EJTAG_INST_CONTROL
);
1316 mips_ejtag_drscan_32_out(ejtag_info
, ejtag_ctrl
);
1319 retval
= wait_for_pracc_rw(ejtag_info
, &ejtag_ctrl
);
1320 if (retval
!= ERROR_OK
)
1323 /* next fetch to dmseg should be in FASTDATA_AREA, check */
1325 mips_ejtag_set_instr(ejtag_info
, EJTAG_INST_ADDRESS
);
1326 retval
= mips_ejtag_drscan_32(ejtag_info
, &address
);
1327 if (retval
!= ERROR_OK
)
1330 if (address
!= MIPS32_PRACC_FASTDATA_AREA
)
1333 /* wait PrAcc pending bit for FASTDATA write */
1334 retval
= wait_for_pracc_rw(ejtag_info
, &ejtag_ctrl
);
1335 if (retval
!= ERROR_OK
)
1338 /* Send the load start address */
1340 mips_ejtag_set_instr(ejtag_info
, EJTAG_INST_FASTDATA
);
1341 mips_ejtag_fastdata_scan(ejtag_info
, 1, &val
);
1343 /* Send the load end address */
1344 val
= addr
+ (count
- 1) * 4;
1345 mips_ejtag_fastdata_scan(ejtag_info
, 1, &val
);
1347 for (i
= 0; i
< count
; i
++) {
1348 retval
= mips_ejtag_fastdata_scan(ejtag_info
, write_t
, buf
++);
1349 if (retval
!= ERROR_OK
)
1353 retval
= jtag_execute_queue();
1354 if (retval
!= ERROR_OK
) {
1355 LOG_ERROR("fastdata load failed");
1359 retval
= wait_for_pracc_rw(ejtag_info
, &ejtag_ctrl
);
1360 if (retval
!= ERROR_OK
)
1364 mips_ejtag_set_instr(ejtag_info
, EJTAG_INST_ADDRESS
);
1365 retval
= mips_ejtag_drscan_32(ejtag_info
, &address
);
1366 if (retval
!= ERROR_OK
)
1369 if (address
!= MIPS32_PRACC_TEXT
)
1370 LOG_ERROR("mini program did not return to start");