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) 2007,2008 Øyvind Harboe *
8 * oyvind.harboe@zylin.com *
10 * Copyright (C) 2011 by Drasko DRASKOVIC *
11 * drasko.draskovic@gmail.com *
13 * This program is free software; you can redistribute it and/or modify *
14 * it under the terms of the GNU General Public License as published by *
15 * the Free Software Foundation; either version 2 of the License, or *
16 * (at your option) any later version. *
18 * This program is distributed in the hope that it will be useful, *
19 * but WITHOUT ANY WARRANTY; without even the implied warranty of *
20 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the *
21 * GNU General Public License for more details. *
23 * You should have received a copy of the GNU General Public License *
24 * along with this program; if not, write to the *
25 * Free Software Foundation, Inc., *
26 * 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA. *
27 ***************************************************************************/
34 #include "breakpoints.h"
35 #include "algorithm.h"
38 static const char *mips_isa_strings
[] = {
45 } mips32_regs
[MIPS32NUMCOREREGS
] = {
87 /* number of mips dummy fp regs fp0 - fp31 + fsr and fir
88 * we also add 18 unknown registers to handle gdb requests */
90 #define MIPS32NUMFPREGS (34 + 18)
92 static uint8_t mips32_gdb_dummy_fp_value
[] = {0, 0, 0, 0};
94 static struct reg mips32_gdb_dummy_fp_reg
= {
95 .name
= "GDB dummy floating-point register",
96 .value
= mips32_gdb_dummy_fp_value
,
103 static int mips32_get_core_reg(struct reg
*reg
)
106 struct mips32_core_reg
*mips32_reg
= reg
->arch_info
;
107 struct target
*target
= mips32_reg
->target
;
108 struct mips32_common
*mips32_target
= target_to_mips32(target
);
110 if (target
->state
!= TARGET_HALTED
)
111 return ERROR_TARGET_NOT_HALTED
;
113 retval
= mips32_target
->read_core_reg(target
, mips32_reg
->num
);
118 static int mips32_set_core_reg(struct reg
*reg
, uint8_t *buf
)
120 struct mips32_core_reg
*mips32_reg
= reg
->arch_info
;
121 struct target
*target
= mips32_reg
->target
;
122 uint32_t value
= buf_get_u32(buf
, 0, 32);
124 if (target
->state
!= TARGET_HALTED
)
125 return ERROR_TARGET_NOT_HALTED
;
127 buf_set_u32(reg
->value
, 0, 32, value
);
134 static int mips32_read_core_reg(struct target
*target
, int num
)
138 /* get pointers to arch-specific information */
139 struct mips32_common
*mips32
= target_to_mips32(target
);
141 if ((num
< 0) || (num
>= MIPS32NUMCOREREGS
))
142 return ERROR_COMMAND_SYNTAX_ERROR
;
144 reg_value
= mips32
->core_regs
[num
];
145 buf_set_u32(mips32
->core_cache
->reg_list
[num
].value
, 0, 32, reg_value
);
146 mips32
->core_cache
->reg_list
[num
].valid
= 1;
147 mips32
->core_cache
->reg_list
[num
].dirty
= 0;
152 static int mips32_write_core_reg(struct target
*target
, int num
)
156 /* get pointers to arch-specific information */
157 struct mips32_common
*mips32
= target_to_mips32(target
);
159 if ((num
< 0) || (num
>= MIPS32NUMCOREREGS
))
160 return ERROR_COMMAND_SYNTAX_ERROR
;
162 reg_value
= buf_get_u32(mips32
->core_cache
->reg_list
[num
].value
, 0, 32);
163 mips32
->core_regs
[num
] = reg_value
;
164 LOG_DEBUG("write core reg %i value 0x%" PRIx32
"", num
, reg_value
);
165 mips32
->core_cache
->reg_list
[num
].valid
= 1;
166 mips32
->core_cache
->reg_list
[num
].dirty
= 0;
171 int mips32_get_gdb_reg_list(struct target
*target
, struct reg
**reg_list
[],
172 int *reg_list_size
, enum target_register_class reg_class
)
174 /* get pointers to arch-specific information */
175 struct mips32_common
*mips32
= target_to_mips32(target
);
178 /* include floating point registers */
179 *reg_list_size
= MIPS32NUMCOREREGS
+ MIPS32NUMFPREGS
;
180 *reg_list
= malloc(sizeof(struct reg
*) * (*reg_list_size
));
182 for (i
= 0; i
< MIPS32NUMCOREREGS
; i
++)
183 (*reg_list
)[i
] = &mips32
->core_cache
->reg_list
[i
];
185 /* add dummy floating points regs */
186 for (i
= MIPS32NUMCOREREGS
; i
< (MIPS32NUMCOREREGS
+ MIPS32NUMFPREGS
); i
++)
187 (*reg_list
)[i
] = &mips32_gdb_dummy_fp_reg
;
192 int mips32_save_context(struct target
*target
)
196 /* get pointers to arch-specific information */
197 struct mips32_common
*mips32
= target_to_mips32(target
);
198 struct mips_ejtag
*ejtag_info
= &mips32
->ejtag_info
;
200 /* read core registers */
201 mips32_pracc_read_regs(ejtag_info
, mips32
->core_regs
);
203 for (i
= 0; i
< MIPS32NUMCOREREGS
; i
++) {
204 if (!mips32
->core_cache
->reg_list
[i
].valid
)
205 mips32
->read_core_reg(target
, i
);
211 int mips32_restore_context(struct target
*target
)
215 /* get pointers to arch-specific information */
216 struct mips32_common
*mips32
= target_to_mips32(target
);
217 struct mips_ejtag
*ejtag_info
= &mips32
->ejtag_info
;
219 for (i
= 0; i
< MIPS32NUMCOREREGS
; i
++) {
220 if (mips32
->core_cache
->reg_list
[i
].dirty
)
221 mips32
->write_core_reg(target
, i
);
224 /* write core regs */
225 mips32_pracc_write_regs(ejtag_info
, mips32
->core_regs
);
230 int mips32_arch_state(struct target
*target
)
232 struct mips32_common
*mips32
= target_to_mips32(target
);
234 LOG_USER("target halted in %s mode due to %s, pc: 0x%8.8" PRIx32
"",
235 mips_isa_strings
[mips32
->isa_mode
],
236 debug_reason_name(target
),
237 buf_get_u32(mips32
->core_cache
->reg_list
[MIPS32_PC
].value
, 0, 32));
242 static const struct reg_arch_type mips32_reg_type
= {
243 .get
= mips32_get_core_reg
,
244 .set
= mips32_set_core_reg
,
247 struct reg_cache
*mips32_build_reg_cache(struct target
*target
)
249 /* get pointers to arch-specific information */
250 struct mips32_common
*mips32
= target_to_mips32(target
);
252 int num_regs
= MIPS32NUMCOREREGS
;
253 struct reg_cache
**cache_p
= register_get_last_cache_p(&target
->reg_cache
);
254 struct reg_cache
*cache
= malloc(sizeof(struct reg_cache
));
255 struct reg
*reg_list
= calloc(num_regs
, sizeof(struct reg
));
256 struct mips32_core_reg
*arch_info
= malloc(sizeof(struct mips32_core_reg
) * num_regs
);
259 register_init_dummy(&mips32_gdb_dummy_fp_reg
);
261 /* Build the process context cache */
262 cache
->name
= "mips32 registers";
264 cache
->reg_list
= reg_list
;
265 cache
->num_regs
= num_regs
;
267 mips32
->core_cache
= cache
;
269 for (i
= 0; i
< num_regs
; i
++) {
270 arch_info
[i
].num
= mips32_regs
[i
].id
;
271 arch_info
[i
].target
= target
;
272 arch_info
[i
].mips32_common
= mips32
;
274 reg_list
[i
].name
= mips32_regs
[i
].name
;
275 reg_list
[i
].size
= 32;
276 reg_list
[i
].value
= calloc(1, 4);
277 reg_list
[i
].dirty
= 0;
278 reg_list
[i
].valid
= 0;
279 reg_list
[i
].type
= &mips32_reg_type
;
280 reg_list
[i
].arch_info
= &arch_info
[i
];
286 int mips32_init_arch_info(struct target
*target
, struct mips32_common
*mips32
, struct jtag_tap
*tap
)
288 target
->arch_info
= mips32
;
289 mips32
->common_magic
= MIPS32_COMMON_MAGIC
;
290 mips32
->fast_data_area
= NULL
;
292 /* has breakpoint/watchpoint unit been scanned */
293 mips32
->bp_scanned
= 0;
294 mips32
->data_break_list
= NULL
;
296 mips32
->ejtag_info
.tap
= tap
;
297 mips32
->read_core_reg
= mips32_read_core_reg
;
298 mips32
->write_core_reg
= mips32_write_core_reg
;
300 mips32
->ejtag_info
.scan_delay
= 2000000; /* Initial default value */
301 mips32
->ejtag_info
.mode
= 0; /* Initial default value */
306 /* run to exit point. return error if exit point was not reached. */
307 static int mips32_run_and_wait(struct target
*target
, uint32_t entry_point
,
308 int timeout_ms
, uint32_t exit_point
, struct mips32_common
*mips32
)
312 /* This code relies on the target specific resume() and poll()->debug_entry()
313 * sequence to write register values to the processor and the read them back */
314 retval
= target_resume(target
, 0, entry_point
, 0, 1);
315 if (retval
!= ERROR_OK
)
318 retval
= target_wait_state(target
, TARGET_HALTED
, timeout_ms
);
319 /* If the target fails to halt due to the breakpoint, force a halt */
320 if (retval
!= ERROR_OK
|| target
->state
!= TARGET_HALTED
) {
321 retval
= target_halt(target
);
322 if (retval
!= ERROR_OK
)
324 retval
= target_wait_state(target
, TARGET_HALTED
, 500);
325 if (retval
!= ERROR_OK
)
327 return ERROR_TARGET_TIMEOUT
;
330 pc
= buf_get_u32(mips32
->core_cache
->reg_list
[MIPS32_PC
].value
, 0, 32);
331 if (exit_point
&& (pc
!= exit_point
)) {
332 LOG_DEBUG("failed algorithm halted at 0x%" PRIx32
" ", pc
);
333 return ERROR_TARGET_TIMEOUT
;
339 int mips32_run_algorithm(struct target
*target
, int num_mem_params
,
340 struct mem_param
*mem_params
, int num_reg_params
,
341 struct reg_param
*reg_params
, uint32_t entry_point
,
342 uint32_t exit_point
, int timeout_ms
, void *arch_info
)
344 struct mips32_common
*mips32
= target_to_mips32(target
);
345 struct mips32_algorithm
*mips32_algorithm_info
= arch_info
;
346 enum mips32_isa_mode isa_mode
= mips32
->isa_mode
;
348 uint32_t context
[MIPS32NUMCOREREGS
];
350 int retval
= ERROR_OK
;
352 LOG_DEBUG("Running algorithm");
354 /* NOTE: mips32_run_algorithm requires that each algorithm uses a software breakpoint
355 * at the exit point */
357 if (mips32
->common_magic
!= MIPS32_COMMON_MAGIC
) {
358 LOG_ERROR("current target isn't a MIPS32 target");
359 return ERROR_TARGET_INVALID
;
362 if (target
->state
!= TARGET_HALTED
) {
363 LOG_WARNING("target not halted");
364 return ERROR_TARGET_NOT_HALTED
;
367 /* refresh core register cache */
368 for (i
= 0; i
< MIPS32NUMCOREREGS
; i
++) {
369 if (!mips32
->core_cache
->reg_list
[i
].valid
)
370 mips32
->read_core_reg(target
, i
);
371 context
[i
] = buf_get_u32(mips32
->core_cache
->reg_list
[i
].value
, 0, 32);
374 for (i
= 0; i
< num_mem_params
; i
++) {
375 retval
= target_write_buffer(target
, mem_params
[i
].address
,
376 mem_params
[i
].size
, mem_params
[i
].value
);
377 if (retval
!= ERROR_OK
)
381 for (i
= 0; i
< num_reg_params
; i
++) {
382 struct reg
*reg
= register_get_by_name(mips32
->core_cache
, reg_params
[i
].reg_name
, 0);
385 LOG_ERROR("BUG: register '%s' not found", reg_params
[i
].reg_name
);
386 return ERROR_COMMAND_SYNTAX_ERROR
;
389 if (reg
->size
!= reg_params
[i
].size
) {
390 LOG_ERROR("BUG: register '%s' size doesn't match reg_params[i].size",
391 reg_params
[i
].reg_name
);
392 return ERROR_COMMAND_SYNTAX_ERROR
;
395 mips32_set_core_reg(reg
, reg_params
[i
].value
);
398 mips32
->isa_mode
= mips32_algorithm_info
->isa_mode
;
400 retval
= mips32_run_and_wait(target
, entry_point
, timeout_ms
, exit_point
, mips32
);
402 if (retval
!= ERROR_OK
)
405 for (i
= 0; i
< num_mem_params
; i
++) {
406 if (mem_params
[i
].direction
!= PARAM_OUT
) {
407 retval
= target_read_buffer(target
, mem_params
[i
].address
, mem_params
[i
].size
,
408 mem_params
[i
].value
);
409 if (retval
!= ERROR_OK
)
414 for (i
= 0; i
< num_reg_params
; i
++) {
415 if (reg_params
[i
].direction
!= PARAM_OUT
) {
416 struct reg
*reg
= register_get_by_name(mips32
->core_cache
, reg_params
[i
].reg_name
, 0);
418 LOG_ERROR("BUG: register '%s' not found", reg_params
[i
].reg_name
);
419 return ERROR_COMMAND_SYNTAX_ERROR
;
422 if (reg
->size
!= reg_params
[i
].size
) {
423 LOG_ERROR("BUG: register '%s' size doesn't match reg_params[i].size",
424 reg_params
[i
].reg_name
);
425 return ERROR_COMMAND_SYNTAX_ERROR
;
428 buf_set_u32(reg_params
[i
].value
, 0, 32, buf_get_u32(reg
->value
, 0, 32));
432 /* restore everything we saved before */
433 for (i
= 0; i
< MIPS32NUMCOREREGS
; i
++) {
435 regvalue
= buf_get_u32(mips32
->core_cache
->reg_list
[i
].value
, 0, 32);
436 if (regvalue
!= context
[i
]) {
437 LOG_DEBUG("restoring register %s with value 0x%8.8" PRIx32
,
438 mips32
->core_cache
->reg_list
[i
].name
, context
[i
]);
439 buf_set_u32(mips32
->core_cache
->reg_list
[i
].value
,
441 mips32
->core_cache
->reg_list
[i
].valid
= 1;
442 mips32
->core_cache
->reg_list
[i
].dirty
= 1;
446 mips32
->isa_mode
= isa_mode
;
451 int mips32_examine(struct target
*target
)
453 struct mips32_common
*mips32
= target_to_mips32(target
);
455 if (!target_was_examined(target
)) {
456 target_set_examined(target
);
458 /* we will configure later */
459 mips32
->bp_scanned
= 0;
460 mips32
->num_inst_bpoints
= 0;
461 mips32
->num_data_bpoints
= 0;
462 mips32
->num_inst_bpoints_avail
= 0;
463 mips32
->num_data_bpoints_avail
= 0;
469 static int mips32_configure_ibs(struct target
*target
)
471 struct mips32_common
*mips32
= target_to_mips32(target
);
472 struct mips_ejtag
*ejtag_info
= &mips32
->ejtag_info
;
476 /* get number of inst breakpoints */
477 retval
= target_read_u32(target
, ejtag_info
->ejtag_ibs_addr
, &bpinfo
);
478 if (retval
!= ERROR_OK
)
481 mips32
->num_inst_bpoints
= (bpinfo
>> 24) & 0x0F;
482 mips32
->num_inst_bpoints_avail
= mips32
->num_inst_bpoints
;
483 mips32
->inst_break_list
= calloc(mips32
->num_inst_bpoints
,
484 sizeof(struct mips32_comparator
));
486 for (i
= 0; i
< mips32
->num_inst_bpoints
; i
++)
487 mips32
->inst_break_list
[i
].reg_address
=
488 ejtag_info
->ejtag_iba0_addr
+
489 (ejtag_info
->ejtag_iba_step_size
* i
);
492 retval
= target_write_u32(target
, ejtag_info
->ejtag_ibs_addr
, 0);
496 static int mips32_configure_dbs(struct target
*target
)
498 struct mips32_common
*mips32
= target_to_mips32(target
);
499 struct mips_ejtag
*ejtag_info
= &mips32
->ejtag_info
;
503 /* get number of data breakpoints */
504 retval
= target_read_u32(target
, ejtag_info
->ejtag_dbs_addr
, &bpinfo
);
505 if (retval
!= ERROR_OK
)
508 mips32
->num_data_bpoints
= (bpinfo
>> 24) & 0x0F;
509 mips32
->num_data_bpoints_avail
= mips32
->num_data_bpoints
;
510 mips32
->data_break_list
= calloc(mips32
->num_data_bpoints
,
511 sizeof(struct mips32_comparator
));
513 for (i
= 0; i
< mips32
->num_data_bpoints
; i
++)
514 mips32
->data_break_list
[i
].reg_address
=
515 ejtag_info
->ejtag_dba0_addr
+
516 (ejtag_info
->ejtag_dba_step_size
* i
);
519 retval
= target_write_u32(target
, ejtag_info
->ejtag_dbs_addr
, 0);
523 int mips32_configure_break_unit(struct target
*target
)
525 /* get pointers to arch-specific information */
526 struct mips32_common
*mips32
= target_to_mips32(target
);
527 struct mips_ejtag
*ejtag_info
= &mips32
->ejtag_info
;
531 if (mips32
->bp_scanned
)
534 /* get info about breakpoint support */
535 retval
= target_read_u32(target
, EJTAG_DCR
, &dcr
);
536 if (retval
!= ERROR_OK
)
539 /* EJTAG 2.0 defines IB and DB bits in IMP instead of DCR. */
540 if (ejtag_info
->ejtag_version
== EJTAG_VERSION_20
) {
541 ejtag_info
->debug_caps
= dcr
& EJTAG_DCR_ENM
;
542 if (!(ejtag_info
->impcode
& EJTAG_V20_IMP_NOIB
))
543 ejtag_info
->debug_caps
|= EJTAG_DCR_IB
;
544 if (!(ejtag_info
->impcode
& EJTAG_V20_IMP_NODB
))
545 ejtag_info
->debug_caps
|= EJTAG_DCR_DB
;
547 /* keep debug caps for later use */
548 ejtag_info
->debug_caps
= dcr
& (EJTAG_DCR_ENM
549 | EJTAG_DCR_IB
| EJTAG_DCR_DB
);
552 if (ejtag_info
->debug_caps
& EJTAG_DCR_IB
) {
553 retval
= mips32_configure_ibs(target
);
554 if (retval
!= ERROR_OK
)
558 if (ejtag_info
->debug_caps
& EJTAG_DCR_DB
) {
559 retval
= mips32_configure_dbs(target
);
560 if (retval
!= ERROR_OK
)
564 /* check if target endianness settings matches debug control register */
565 if (((ejtag_info
->debug_caps
& EJTAG_DCR_ENM
)
566 && (target
->endianness
== TARGET_LITTLE_ENDIAN
)) ||
567 (!(ejtag_info
->debug_caps
& EJTAG_DCR_ENM
)
568 && (target
->endianness
== TARGET_BIG_ENDIAN
)))
569 LOG_WARNING("DCR endianness settings does not match target settings");
571 LOG_DEBUG("DCR 0x%" PRIx32
" numinst %i numdata %i", dcr
, mips32
->num_inst_bpoints
,
572 mips32
->num_data_bpoints
);
574 mips32
->bp_scanned
= 1;
579 int mips32_enable_interrupts(struct target
*target
, int enable
)
585 /* read debug control register */
586 retval
= target_read_u32(target
, EJTAG_DCR
, &dcr
);
587 if (retval
!= ERROR_OK
)
591 if (!(dcr
& EJTAG_DCR_INTE
)) {
592 /* enable interrupts */
593 dcr
|= EJTAG_DCR_INTE
;
597 if (dcr
& EJTAG_DCR_INTE
) {
598 /* disable interrupts */
599 dcr
&= ~EJTAG_DCR_INTE
;
605 retval
= target_write_u32(target
, EJTAG_DCR
, dcr
);
606 if (retval
!= ERROR_OK
)
613 int mips32_checksum_memory(struct target
*target
, uint32_t address
,
614 uint32_t count
, uint32_t *checksum
)
616 struct working_area
*crc_algorithm
;
617 struct reg_param reg_params
[2];
618 struct mips32_algorithm mips32_info
;
620 /* see contrib/loaders/checksum/mips32.s for src */
622 static const uint32_t mips_crc_code
[] = {
623 0x248C0000, /* addiu $t4, $a0, 0 */
624 0x24AA0000, /* addiu $t2, $a1, 0 */
625 0x2404FFFF, /* addiu $a0, $zero, 0xffffffff */
626 0x10000010, /* beq $zero, $zero, ncomp */
627 0x240B0000, /* addiu $t3, $zero, 0 */
629 0x81850000, /* lb $a1, ($t4) */
630 0x218C0001, /* addi $t4, $t4, 1 */
631 0x00052E00, /* sll $a1, $a1, 24 */
632 0x3C0204C1, /* lui $v0, 0x04c1 */
633 0x00852026, /* xor $a0, $a0, $a1 */
634 0x34471DB7, /* ori $a3, $v0, 0x1db7 */
635 0x00003021, /* addu $a2, $zero, $zero */
637 0x00044040, /* sll $t0, $a0, 1 */
638 0x24C60001, /* addiu $a2, $a2, 1 */
639 0x28840000, /* slti $a0, $a0, 0 */
640 0x01074826, /* xor $t1, $t0, $a3 */
641 0x0124400B, /* movn $t0, $t1, $a0 */
642 0x28C30008, /* slti $v1, $a2, 8 */
643 0x1460FFF9, /* bne $v1, $zero, loop */
644 0x01002021, /* addu $a0, $t0, $zero */
646 0x154BFFF0, /* bne $t2, $t3, nbyte */
647 0x256B0001, /* addiu $t3, $t3, 1 */
648 0x7000003F, /* sdbbp */
651 /* make sure we have a working area */
652 if (target_alloc_working_area(target
, sizeof(mips_crc_code
), &crc_algorithm
) != ERROR_OK
)
653 return ERROR_TARGET_RESOURCE_NOT_AVAILABLE
;
655 /* convert mips crc code into a buffer in target endianness */
656 uint8_t mips_crc_code_8
[sizeof(mips_crc_code
)];
657 target_buffer_set_u32_array(target
, mips_crc_code_8
,
658 ARRAY_SIZE(mips_crc_code
), mips_crc_code
);
660 target_write_buffer(target
, crc_algorithm
->address
, sizeof(mips_crc_code
), mips_crc_code_8
);
662 mips32_info
.common_magic
= MIPS32_COMMON_MAGIC
;
663 mips32_info
.isa_mode
= MIPS32_ISA_MIPS32
;
665 init_reg_param(®_params
[0], "a0", 32, PARAM_IN_OUT
);
666 buf_set_u32(reg_params
[0].value
, 0, 32, address
);
668 init_reg_param(®_params
[1], "a1", 32, PARAM_OUT
);
669 buf_set_u32(reg_params
[1].value
, 0, 32, count
);
671 int timeout
= 20000 * (1 + (count
/ (1024 * 1024)));
673 int retval
= target_run_algorithm(target
, 0, NULL
, 2, reg_params
,
674 crc_algorithm
->address
, crc_algorithm
->address
+ (sizeof(mips_crc_code
) - 4), timeout
,
677 if (retval
== ERROR_OK
)
678 *checksum
= buf_get_u32(reg_params
[0].value
, 0, 32);
680 destroy_reg_param(®_params
[0]);
681 destroy_reg_param(®_params
[1]);
683 target_free_working_area(target
, crc_algorithm
);
688 /** Checks whether a memory region is zeroed. */
689 int mips32_blank_check_memory(struct target
*target
,
690 uint32_t address
, uint32_t count
, uint32_t *blank
)
692 struct working_area
*erase_check_algorithm
;
693 struct reg_param reg_params
[3];
694 struct mips32_algorithm mips32_info
;
696 static const uint32_t erase_check_code
[] = {
698 0x80880000, /* lb $t0, ($a0) */
699 0x00C83024, /* and $a2, $a2, $t0 */
700 0x24A5FFFF, /* addiu $a1, $a1, -1 */
701 0x14A0FFFC, /* bne $a1, $zero, nbyte */
702 0x24840001, /* addiu $a0, $a0, 1 */
703 0x7000003F /* sdbbp */
706 /* make sure we have a working area */
707 if (target_alloc_working_area(target
, sizeof(erase_check_code
), &erase_check_algorithm
) != ERROR_OK
)
708 return ERROR_TARGET_RESOURCE_NOT_AVAILABLE
;
710 /* convert erase check code into a buffer in target endianness */
711 uint8_t erase_check_code_8
[sizeof(erase_check_code
)];
712 target_buffer_set_u32_array(target
, erase_check_code_8
,
713 ARRAY_SIZE(erase_check_code
), erase_check_code
);
715 target_write_buffer(target
, erase_check_algorithm
->address
, sizeof(erase_check_code
), erase_check_code_8
);
717 mips32_info
.common_magic
= MIPS32_COMMON_MAGIC
;
718 mips32_info
.isa_mode
= MIPS32_ISA_MIPS32
;
720 init_reg_param(®_params
[0], "a0", 32, PARAM_OUT
);
721 buf_set_u32(reg_params
[0].value
, 0, 32, address
);
723 init_reg_param(®_params
[1], "a1", 32, PARAM_OUT
);
724 buf_set_u32(reg_params
[1].value
, 0, 32, count
);
726 init_reg_param(®_params
[2], "a2", 32, PARAM_IN_OUT
);
727 buf_set_u32(reg_params
[2].value
, 0, 32, 0xff);
729 int retval
= target_run_algorithm(target
, 0, NULL
, 3, reg_params
,
730 erase_check_algorithm
->address
,
731 erase_check_algorithm
->address
+ (sizeof(erase_check_code
) - 4),
732 10000, &mips32_info
);
734 if (retval
== ERROR_OK
)
735 *blank
= buf_get_u32(reg_params
[2].value
, 0, 32);
737 destroy_reg_param(®_params
[0]);
738 destroy_reg_param(®_params
[1]);
739 destroy_reg_param(®_params
[2]);
741 target_free_working_area(target
, erase_check_algorithm
);
746 static int mips32_verify_pointer(struct command_context
*cmd_ctx
,
747 struct mips32_common
*mips32
)
749 if (mips32
->common_magic
!= MIPS32_COMMON_MAGIC
) {
750 command_print(cmd_ctx
, "target is not an MIPS32");
751 return ERROR_TARGET_INVALID
;
757 * MIPS32 targets expose command interface
758 * to manipulate CP0 registers
760 COMMAND_HANDLER(mips32_handle_cp0_command
)
763 struct target
*target
= get_current_target(CMD_CTX
);
764 struct mips32_common
*mips32
= target_to_mips32(target
);
765 struct mips_ejtag
*ejtag_info
= &mips32
->ejtag_info
;
768 retval
= mips32_verify_pointer(CMD_CTX
, mips32
);
769 if (retval
!= ERROR_OK
)
772 if (target
->state
!= TARGET_HALTED
) {
773 command_print(CMD_CTX
, "target must be stopped for \"%s\" command", CMD_NAME
);
777 /* two or more argument, access a single register/select (write if third argument is given) */
779 return ERROR_COMMAND_SYNTAX_ERROR
;
781 uint32_t cp0_reg
, cp0_sel
;
782 COMMAND_PARSE_NUMBER(u32
, CMD_ARGV
[0], cp0_reg
);
783 COMMAND_PARSE_NUMBER(u32
, CMD_ARGV
[1], cp0_sel
);
788 retval
= mips32_cp0_read(ejtag_info
, &value
, cp0_reg
, cp0_sel
);
789 if (retval
!= ERROR_OK
) {
790 command_print(CMD_CTX
,
791 "couldn't access reg %" PRIi32
,
795 command_print(CMD_CTX
, "cp0 reg %" PRIi32
", select %" PRIi32
": %8.8" PRIx32
,
796 cp0_reg
, cp0_sel
, value
);
798 } else if (CMD_ARGC
== 3) {
800 COMMAND_PARSE_NUMBER(u32
, CMD_ARGV
[2], value
);
801 retval
= mips32_cp0_write(ejtag_info
, value
, cp0_reg
, cp0_sel
);
802 if (retval
!= ERROR_OK
) {
803 command_print(CMD_CTX
,
804 "couldn't access cp0 reg %" PRIi32
", select %" PRIi32
,
808 command_print(CMD_CTX
, "cp0 reg %" PRIi32
", select %" PRIi32
": %8.8" PRIx32
,
809 cp0_reg
, cp0_sel
, value
);
816 COMMAND_HANDLER(mips32_handle_scan_delay_command
)
818 struct target
*target
= get_current_target(CMD_CTX
);
819 struct mips32_common
*mips32
= target_to_mips32(target
);
820 struct mips_ejtag
*ejtag_info
= &mips32
->ejtag_info
;
823 COMMAND_PARSE_NUMBER(uint
, CMD_ARGV
[0], ejtag_info
->scan_delay
);
824 else if (CMD_ARGC
> 1)
825 return ERROR_COMMAND_SYNTAX_ERROR
;
827 command_print(CMD_CTX
, "scan delay: %d nsec", ejtag_info
->scan_delay
);
828 if (ejtag_info
->scan_delay
>= 2000000) {
829 ejtag_info
->mode
= 0;
830 command_print(CMD_CTX
, "running in legacy mode");
832 ejtag_info
->mode
= 1;
833 command_print(CMD_CTX
, "running in fast queued mode");
839 static const struct command_registration mips32_exec_command_handlers
[] = {
842 .handler
= mips32_handle_cp0_command
,
843 .mode
= COMMAND_EXEC
,
844 .usage
= "regnum select [value]",
845 .help
= "display/modify cp0 register",
848 .name
= "scan_delay",
849 .handler
= mips32_handle_scan_delay_command
,
851 .help
= "display/set scan delay in nano seconds",
854 COMMAND_REGISTRATION_DONE
857 const struct command_registration mips32_command_handlers
[] = {
861 .help
= "mips32 command group",
863 .chain
= mips32_exec_command_handlers
,
865 COMMAND_REGISTRATION_DONE
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