1 /***************************************************************************
2 * Copyright (C) 2005 by Dominic Rath *
3 * Dominic.Rath@gmx.de *
5 * Copyright (C) 2007,2008 Øyvind Harboe *
6 * oyvind.harboe@zylin.com *
8 * Copyright (C) 2008, Duane Ellis *
9 * openocd@duaneeellis.com *
11 * Copyright (C) 2008 by Spencer Oliver *
12 * spen@spen-soft.co.uk *
14 * Copyright (C) 2008 by Rick Altherr *
15 * kc8apf@kc8apf.net> *
17 * This program is free software; you can redistribute it and/or modify *
18 * it under the terms of the GNU General Public License as published by *
19 * the Free Software Foundation; either version 2 of the License, or *
20 * (at your option) any later version. *
22 * This program is distributed in the hope that it will be useful, *
23 * but WITHOUT ANY WARRANTY; without even the implied warranty of *
24 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the *
25 * GNU General Public License for more details. *
27 * You should have received a copy of the GNU General Public License *
28 * along with this program; if not, write to the *
29 * Free Software Foundation, Inc., *
30 * 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. *
31 ***************************************************************************/
36 #include "replacements.h"
38 #include "target_request.h"
41 #include "configuration.h"
42 #include "binarybuffer.h"
49 #include <sys/types.h>
57 #include <time_support.h>
62 int cli_target_callback_event_handler(struct target_s
*target
, enum target_event event
, void *priv
);
64 int handle_targets_command(struct command_context_s
*cmd_ctx
, char *cmd
, char **args
, int argc
);
66 int handle_reg_command(struct command_context_s
*cmd_ctx
, char *cmd
, char **args
, int argc
);
67 int handle_poll_command(struct command_context_s
*cmd_ctx
, char *cmd
, char **args
, int argc
);
68 int handle_halt_command(struct command_context_s
*cmd_ctx
, char *cmd
, char **args
, int argc
);
69 int handle_wait_halt_command(struct command_context_s
*cmd_ctx
, char *cmd
, char **args
, int argc
);
70 int handle_reset_command(struct command_context_s
*cmd_ctx
, char *cmd
, char **args
, int argc
);
71 int handle_soft_reset_halt_command(struct command_context_s
*cmd_ctx
, char *cmd
, char **args
, int argc
);
72 int handle_resume_command(struct command_context_s
*cmd_ctx
, char *cmd
, char **args
, int argc
);
73 int handle_step_command(struct command_context_s
*cmd_ctx
, char *cmd
, char **args
, int argc
);
74 int handle_md_command(struct command_context_s
*cmd_ctx
, char *cmd
, char **args
, int argc
);
75 int handle_mw_command(struct command_context_s
*cmd_ctx
, char *cmd
, char **args
, int argc
);
76 int handle_load_image_command(struct command_context_s
*cmd_ctx
, char *cmd
, char **args
, int argc
);
77 int handle_dump_image_command(struct command_context_s
*cmd_ctx
, char *cmd
, char **args
, int argc
);
78 int handle_verify_image_command(struct command_context_s
*cmd_ctx
, char *cmd
, char **args
, int argc
);
79 int handle_test_image_command(struct command_context_s
*cmd_ctx
, char *cmd
, char **args
, int argc
);
80 int handle_bp_command(struct command_context_s
*cmd_ctx
, char *cmd
, char **args
, int argc
);
81 int handle_rbp_command(struct command_context_s
*cmd_ctx
, char *cmd
, char **args
, int argc
);
82 int handle_wp_command(struct command_context_s
*cmd_ctx
, char *cmd
, char **args
, int argc
);
83 int handle_rwp_command(struct command_context_s
*cmd_ctx
, char *cmd
, char **args
, int argc
);
84 int handle_virt2phys_command(command_context_t
*cmd_ctx
, char *cmd
, char **args
, int argc
);
85 int handle_profile_command(struct command_context_s
*cmd_ctx
, char *cmd
, char **args
, int argc
);
86 int handle_fast_load_image_command(struct command_context_s
*cmd_ctx
, char *cmd
, char **args
, int argc
);
87 int handle_fast_load_command(struct command_context_s
*cmd_ctx
, char *cmd
, char **args
, int argc
);
89 static int jim_array2mem(Jim_Interp
*interp
, int argc
, Jim_Obj
*const *argv
);
90 static int jim_mem2array(Jim_Interp
*interp
, int argc
, Jim_Obj
*const *argv
);
91 static int jim_target( Jim_Interp
*interp
, int argc
, Jim_Obj
*const *argv
);
93 static int target_array2mem(Jim_Interp
*interp
, target_t
*target
, int argc
, Jim_Obj
*const *argv
);
94 static int target_mem2array(Jim_Interp
*interp
, target_t
*target
, int argc
, Jim_Obj
*const *argv
);
97 extern target_type_t arm7tdmi_target
;
98 extern target_type_t arm720t_target
;
99 extern target_type_t arm9tdmi_target
;
100 extern target_type_t arm920t_target
;
101 extern target_type_t arm966e_target
;
102 extern target_type_t arm926ejs_target
;
103 extern target_type_t feroceon_target
;
104 extern target_type_t xscale_target
;
105 extern target_type_t cortexm3_target
;
106 extern target_type_t arm11_target
;
107 extern target_type_t mips_m4k_target
;
109 target_type_t
*target_types
[] =
125 target_t
*all_targets
= NULL
;
126 target_event_callback_t
*target_event_callbacks
= NULL
;
127 target_timer_callback_t
*target_timer_callbacks
= NULL
;
129 const Jim_Nvp nvp_assert
[] = {
130 { .name
= "assert", NVP_ASSERT
},
131 { .name
= "deassert", NVP_DEASSERT
},
132 { .name
= "T", NVP_ASSERT
},
133 { .name
= "F", NVP_DEASSERT
},
134 { .name
= "t", NVP_ASSERT
},
135 { .name
= "f", NVP_DEASSERT
},
136 { .name
= NULL
, .value
= -1 }
139 const Jim_Nvp nvp_error_target
[] = {
140 { .value
= ERROR_TARGET_INVALID
, .name
= "err-invalid" },
141 { .value
= ERROR_TARGET_INIT_FAILED
, .name
= "err-init-failed" },
142 { .value
= ERROR_TARGET_TIMEOUT
, .name
= "err-timeout" },
143 { .value
= ERROR_TARGET_NOT_HALTED
, .name
= "err-not-halted" },
144 { .value
= ERROR_TARGET_FAILURE
, .name
= "err-failure" },
145 { .value
= ERROR_TARGET_UNALIGNED_ACCESS
, .name
= "err-unaligned-access" },
146 { .value
= ERROR_TARGET_DATA_ABORT
, .name
= "err-data-abort" },
147 { .value
= ERROR_TARGET_RESOURCE_NOT_AVAILABLE
, .name
= "err-resource-not-available" },
148 { .value
= ERROR_TARGET_TRANSLATION_FAULT
, .name
= "err-translation-fault" },
149 { .value
= ERROR_TARGET_NOT_RUNNING
, .name
= "err-not-running" },
150 { .value
= ERROR_TARGET_NOT_EXAMINED
, .name
= "err-not-examined" },
151 { .value
= -1, .name
= NULL
}
154 const char *target_strerror_safe( int err
)
158 n
= Jim_Nvp_value2name_simple( nvp_error_target
, err
);
159 if( n
->name
== NULL
){
166 const Jim_Nvp nvp_target_event
[] = {
167 { .value
= TARGET_EVENT_OLD_gdb_program_config
, .name
= "old-gdb_program_config" },
168 { .value
= TARGET_EVENT_OLD_pre_resume
, .name
= "old-pre_resume" },
170 { .value
= TARGET_EVENT_EARLY_HALTED
, .name
= "early-halted" },
171 { .value
= TARGET_EVENT_HALTED
, .name
= "halted" },
172 { .value
= TARGET_EVENT_RESUMED
, .name
= "resumed" },
173 { .value
= TARGET_EVENT_RESUME_START
, .name
= "resume-start" },
174 { .value
= TARGET_EVENT_RESUME_END
, .name
= "resume-end" },
176 { .name
= "gdb-start", .value
= TARGET_EVENT_GDB_START
},
177 { .name
= "gdb-end", .value
= TARGET_EVENT_GDB_END
},
179 /* historical name */
181 { .value
= TARGET_EVENT_RESET_START
, .name
= "reset-start" },
183 { .value
= TARGET_EVENT_RESET_ASSERT_PRE
, .name
= "reset-assert-pre" },
184 { .value
= TARGET_EVENT_RESET_ASSERT_POST
, .name
= "reset-assert-post" },
185 { .value
= TARGET_EVENT_RESET_DEASSERT_PRE
, .name
= "reset-deassert-pre" },
186 { .value
= TARGET_EVENT_RESET_DEASSERT_POST
, .name
= "reset-deassert-post" },
187 { .value
= TARGET_EVENT_RESET_HALT_PRE
, .name
= "reset-halt-pre" },
188 { .value
= TARGET_EVENT_RESET_HALT_POST
, .name
= "reset-halt-post" },
189 { .value
= TARGET_EVENT_RESET_WAIT_PRE
, .name
= "reset-wait-pre" },
190 { .value
= TARGET_EVENT_RESET_WAIT_POST
, .name
= "reset-wait-post" },
191 { .value
= TARGET_EVENT_RESET_INIT
, .name
= "reset-init" },
192 { .value
= TARGET_EVENT_RESET_END
, .name
= "reset-end" },
194 { .value
= TARGET_EVENT_EXAMINE_START
, .name
= "examine-start" },
195 { .value
= TARGET_EVENT_EXAMINE_END
, .name
= "examine-end" },
197 { .value
= TARGET_EVENT_DEBUG_HALTED
, .name
= "debug-halted" },
198 { .value
= TARGET_EVENT_DEBUG_RESUMED
, .name
= "debug-resumed" },
200 { .value
= TARGET_EVENT_GDB_ATTACH
, .name
= "gdb-attach" },
201 { .value
= TARGET_EVENT_GDB_DETACH
, .name
= "gdb-detach" },
203 { .value
= TARGET_EVENT_GDB_FLASH_WRITE_START
, .name
= "gdb-flash-write-start" },
204 { .value
= TARGET_EVENT_GDB_FLASH_WRITE_END
, .name
= "gdb-flash-write-end" },
206 { .value
= TARGET_EVENT_GDB_FLASH_ERASE_START
, .name
= "gdb-flash-erase-start" },
207 { .value
= TARGET_EVENT_GDB_FLASH_ERASE_END
, .name
= "gdb-flash-erase-end" },
209 { .value
= TARGET_EVENT_RESUME_START
, .name
= "resume-start" },
210 { .value
= TARGET_EVENT_RESUMED
, .name
= "resume-ok" },
211 { .value
= TARGET_EVENT_RESUME_END
, .name
= "resume-end" },
213 { .name
= NULL
, .value
= -1 }
216 const Jim_Nvp nvp_target_state
[] = {
217 { .name
= "unknown", .value
= TARGET_UNKNOWN
},
218 { .name
= "running", .value
= TARGET_RUNNING
},
219 { .name
= "halted", .value
= TARGET_HALTED
},
220 { .name
= "reset", .value
= TARGET_RESET
},
221 { .name
= "debug-running", .value
= TARGET_DEBUG_RUNNING
},
222 { .name
= NULL
, .value
= -1 },
225 const Jim_Nvp nvp_target_debug_reason
[] = {
226 { .name
= "debug-request" , .value
= DBG_REASON_DBGRQ
},
227 { .name
= "breakpoint" , .value
= DBG_REASON_BREAKPOINT
},
228 { .name
= "watchpoint" , .value
= DBG_REASON_WATCHPOINT
},
229 { .name
= "watchpoint-and-breakpoint", .value
= DBG_REASON_WPTANDBKPT
},
230 { .name
= "single-step" , .value
= DBG_REASON_SINGLESTEP
},
231 { .name
= "target-not-halted" , .value
= DBG_REASON_NOTHALTED
},
232 { .name
= "undefined" , .value
= DBG_REASON_UNDEFINED
},
233 { .name
= NULL
, .value
= -1 },
236 const Jim_Nvp nvp_target_endian
[] = {
237 { .name
= "big", .value
= TARGET_BIG_ENDIAN
},
238 { .name
= "little", .value
= TARGET_LITTLE_ENDIAN
},
239 { .name
= "be", .value
= TARGET_BIG_ENDIAN
},
240 { .name
= "le", .value
= TARGET_LITTLE_ENDIAN
},
241 { .name
= NULL
, .value
= -1 },
244 const Jim_Nvp nvp_reset_modes
[] = {
245 { .name
= "unknown", .value
= RESET_UNKNOWN
},
246 { .name
= "run" , .value
= RESET_RUN
},
247 { .name
= "halt" , .value
= RESET_HALT
},
248 { .name
= "init" , .value
= RESET_INIT
},
249 { .name
= NULL
, .value
= -1 },
252 static int max_target_number(void)
260 if( x
< t
->target_number
){
261 x
= (t
->target_number
)+1;
268 /* determine the number of the new target */
269 static int new_target_number(void)
274 /* number is 0 based */
278 if( x
< t
->target_number
){
279 x
= t
->target_number
;
286 static int target_continous_poll
= 1;
288 /* read a u32 from a buffer in target memory endianness */
289 u32
target_buffer_get_u32(target_t
*target
, u8
*buffer
)
291 if (target
->endianness
== TARGET_LITTLE_ENDIAN
)
292 return le_to_h_u32(buffer
);
294 return be_to_h_u32(buffer
);
297 /* read a u16 from a buffer in target memory endianness */
298 u16
target_buffer_get_u16(target_t
*target
, u8
*buffer
)
300 if (target
->endianness
== TARGET_LITTLE_ENDIAN
)
301 return le_to_h_u16(buffer
);
303 return be_to_h_u16(buffer
);
306 /* read a u8 from a buffer in target memory endianness */
307 u8
target_buffer_get_u8(target_t
*target
, u8
*buffer
)
309 return *buffer
& 0x0ff;
312 /* write a u32 to a buffer in target memory endianness */
313 void target_buffer_set_u32(target_t
*target
, u8
*buffer
, u32 value
)
315 if (target
->endianness
== TARGET_LITTLE_ENDIAN
)
316 h_u32_to_le(buffer
, value
);
318 h_u32_to_be(buffer
, value
);
321 /* write a u16 to a buffer in target memory endianness */
322 void target_buffer_set_u16(target_t
*target
, u8
*buffer
, u16 value
)
324 if (target
->endianness
== TARGET_LITTLE_ENDIAN
)
325 h_u16_to_le(buffer
, value
);
327 h_u16_to_be(buffer
, value
);
330 /* write a u8 to a buffer in target memory endianness */
331 void target_buffer_set_u8(target_t
*target
, u8
*buffer
, u8 value
)
336 /* returns a pointer to the n-th configured target */
337 target_t
* get_target_by_num(int num
)
339 target_t
*target
= all_targets
;
342 if( target
->target_number
== num
){
345 target
= target
->next
;
351 int get_num_by_target(target_t
*query_target
)
353 return query_target
->target_number
;
356 target_t
* get_current_target(command_context_t
*cmd_ctx
)
358 target_t
*target
= get_target_by_num(cmd_ctx
->current_target
);
362 LOG_ERROR("BUG: current_target out of bounds");
369 int target_poll(struct target_s
*target
)
371 /* We can't poll until after examine */
372 if (!target
->type
->examined
)
374 /* Fail silently lest we pollute the log */
377 return target
->type
->poll(target
);
380 int target_halt(struct target_s
*target
)
382 /* We can't poll until after examine */
383 if (!target
->type
->examined
)
385 LOG_ERROR("Target not examined yet");
388 return target
->type
->halt(target
);
391 int target_resume(struct target_s
*target
, int current
, u32 address
, int handle_breakpoints
, int debug_execution
)
395 /* We can't poll until after examine */
396 if (!target
->type
->examined
)
398 LOG_ERROR("Target not examined yet");
402 /* note that resume *must* be asynchronous. The CPU can halt before we poll. The CPU can
403 * even halt at the current PC as a result of a software breakpoint being inserted by (a bug?)
406 if ((retval
= target
->type
->resume(target
, current
, address
, handle_breakpoints
, debug_execution
)) != ERROR_OK
)
412 int target_process_reset(struct command_context_s
*cmd_ctx
, enum target_reset_mode reset_mode
)
417 n
= Jim_Nvp_value2name_simple( nvp_reset_modes
, reset_mode
);
418 if( n
->name
== NULL
){
419 LOG_ERROR("invalid reset mode");
423 sprintf( buf
, "ocd_process_reset %s", n
->name
);
424 retval
= Jim_Eval( interp
, buf
);
426 if(retval
!= JIM_OK
) {
427 Jim_PrintErrorMessage(interp
);
431 /* We want any events to be processed before the prompt */
432 retval
= target_call_timer_callbacks_now();
437 static int default_virt2phys(struct target_s
*target
, u32
virtual, u32
*physical
)
443 static int default_mmu(struct target_s
*target
, int *enabled
)
449 static int default_examine(struct target_s
*target
)
451 target
->type
->examined
= 1;
455 /* Targets that correctly implement init+examine, i.e.
456 * no communication with target during init:
460 int target_examine(void)
462 int retval
= ERROR_OK
;
463 target_t
*target
= all_targets
;
466 if ((retval
= target
->type
->examine(target
))!=ERROR_OK
)
468 target
= target
->next
;
473 static int target_write_memory_imp(struct target_s
*target
, u32 address
, u32 size
, u32 count
, u8
*buffer
)
475 if (!target
->type
->examined
)
477 LOG_ERROR("Target not examined yet");
480 return target
->type
->write_memory_imp(target
, address
, size
, count
, buffer
);
483 static int target_read_memory_imp(struct target_s
*target
, u32 address
, u32 size
, u32 count
, u8
*buffer
)
485 if (!target
->type
->examined
)
487 LOG_ERROR("Target not examined yet");
490 return target
->type
->read_memory_imp(target
, address
, size
, count
, buffer
);
493 static int target_soft_reset_halt_imp(struct target_s
*target
)
495 if (!target
->type
->examined
)
497 LOG_ERROR("Target not examined yet");
500 return target
->type
->soft_reset_halt_imp(target
);
503 static int target_run_algorithm_imp(struct target_s
*target
, int num_mem_params
, mem_param_t
*mem_params
, int num_reg_params
, reg_param_t
*reg_param
, u32 entry_point
, u32 exit_point
, int timeout_ms
, void *arch_info
)
505 if (!target
->type
->examined
)
507 LOG_ERROR("Target not examined yet");
510 return target
->type
->run_algorithm_imp(target
, num_mem_params
, mem_params
, num_reg_params
, reg_param
, entry_point
, exit_point
, timeout_ms
, arch_info
);
513 int target_init(struct command_context_s
*cmd_ctx
)
515 target_t
*target
= all_targets
;
520 target
->type
->examined
= 0;
521 if (target
->type
->examine
== NULL
)
523 target
->type
->examine
= default_examine
;
526 if ((retval
= target
->type
->init_target(cmd_ctx
, target
)) != ERROR_OK
)
528 LOG_ERROR("target '%s' init failed", target
->type
->name
);
532 /* Set up default functions if none are provided by target */
533 if (target
->type
->virt2phys
== NULL
)
535 target
->type
->virt2phys
= default_virt2phys
;
537 target
->type
->virt2phys
= default_virt2phys
;
538 /* a non-invasive way(in terms of patches) to add some code that
539 * runs before the type->write/read_memory implementation
541 target
->type
->write_memory_imp
= target
->type
->write_memory
;
542 target
->type
->write_memory
= target_write_memory_imp
;
543 target
->type
->read_memory_imp
= target
->type
->read_memory
;
544 target
->type
->read_memory
= target_read_memory_imp
;
545 target
->type
->soft_reset_halt_imp
= target
->type
->soft_reset_halt
;
546 target
->type
->soft_reset_halt
= target_soft_reset_halt_imp
;
547 target
->type
->run_algorithm_imp
= target
->type
->run_algorithm
;
548 target
->type
->run_algorithm
= target_run_algorithm_imp
;
550 if (target
->type
->mmu
== NULL
)
552 target
->type
->mmu
= default_mmu
;
554 target
= target
->next
;
559 if((retval
= target_register_user_commands(cmd_ctx
)) != ERROR_OK
)
561 if((retval
= target_register_timer_callback(handle_target
, 100, 1, NULL
)) != ERROR_OK
)
568 int target_register_event_callback(int (*callback
)(struct target_s
*target
, enum target_event event
, void *priv
), void *priv
)
570 target_event_callback_t
**callbacks_p
= &target_event_callbacks
;
572 if (callback
== NULL
)
574 return ERROR_INVALID_ARGUMENTS
;
579 while ((*callbacks_p
)->next
)
580 callbacks_p
= &((*callbacks_p
)->next
);
581 callbacks_p
= &((*callbacks_p
)->next
);
584 (*callbacks_p
) = malloc(sizeof(target_event_callback_t
));
585 (*callbacks_p
)->callback
= callback
;
586 (*callbacks_p
)->priv
= priv
;
587 (*callbacks_p
)->next
= NULL
;
592 int target_register_timer_callback(int (*callback
)(void *priv
), int time_ms
, int periodic
, void *priv
)
594 target_timer_callback_t
**callbacks_p
= &target_timer_callbacks
;
597 if (callback
== NULL
)
599 return ERROR_INVALID_ARGUMENTS
;
604 while ((*callbacks_p
)->next
)
605 callbacks_p
= &((*callbacks_p
)->next
);
606 callbacks_p
= &((*callbacks_p
)->next
);
609 (*callbacks_p
) = malloc(sizeof(target_timer_callback_t
));
610 (*callbacks_p
)->callback
= callback
;
611 (*callbacks_p
)->periodic
= periodic
;
612 (*callbacks_p
)->time_ms
= time_ms
;
614 gettimeofday(&now
, NULL
);
615 (*callbacks_p
)->when
.tv_usec
= now
.tv_usec
+ (time_ms
% 1000) * 1000;
616 time_ms
-= (time_ms
% 1000);
617 (*callbacks_p
)->when
.tv_sec
= now
.tv_sec
+ (time_ms
/ 1000);
618 if ((*callbacks_p
)->when
.tv_usec
> 1000000)
620 (*callbacks_p
)->when
.tv_usec
= (*callbacks_p
)->when
.tv_usec
- 1000000;
621 (*callbacks_p
)->when
.tv_sec
+= 1;
624 (*callbacks_p
)->priv
= priv
;
625 (*callbacks_p
)->next
= NULL
;
630 int target_unregister_event_callback(int (*callback
)(struct target_s
*target
, enum target_event event
, void *priv
), void *priv
)
632 target_event_callback_t
**p
= &target_event_callbacks
;
633 target_event_callback_t
*c
= target_event_callbacks
;
635 if (callback
== NULL
)
637 return ERROR_INVALID_ARGUMENTS
;
642 target_event_callback_t
*next
= c
->next
;
643 if ((c
->callback
== callback
) && (c
->priv
== priv
))
657 int target_unregister_timer_callback(int (*callback
)(void *priv
), void *priv
)
659 target_timer_callback_t
**p
= &target_timer_callbacks
;
660 target_timer_callback_t
*c
= target_timer_callbacks
;
662 if (callback
== NULL
)
664 return ERROR_INVALID_ARGUMENTS
;
669 target_timer_callback_t
*next
= c
->next
;
670 if ((c
->callback
== callback
) && (c
->priv
== priv
))
684 int target_call_event_callbacks(target_t
*target
, enum target_event event
)
686 target_event_callback_t
*callback
= target_event_callbacks
;
687 target_event_callback_t
*next_callback
;
689 if (event
== TARGET_EVENT_HALTED
)
691 /* execute early halted first */
692 target_call_event_callbacks(target
, TARGET_EVENT_EARLY_HALTED
);
695 LOG_DEBUG("target event %i (%s)",
697 Jim_Nvp_value2name_simple( nvp_target_event
, event
)->name
);
699 target_handle_event( target
, event
);
703 next_callback
= callback
->next
;
704 callback
->callback(target
, event
, callback
->priv
);
705 callback
= next_callback
;
711 static int target_call_timer_callbacks_check_time(int checktime
)
713 target_timer_callback_t
*callback
= target_timer_callbacks
;
714 target_timer_callback_t
*next_callback
;
719 gettimeofday(&now
, NULL
);
723 next_callback
= callback
->next
;
725 if ((!checktime
&&callback
->periodic
)||
726 (((now
.tv_sec
>= callback
->when
.tv_sec
) && (now
.tv_usec
>= callback
->when
.tv_usec
))
727 || (now
.tv_sec
> callback
->when
.tv_sec
)))
729 if(callback
->callback
!= NULL
)
731 callback
->callback(callback
->priv
);
732 if (callback
->periodic
)
734 int time_ms
= callback
->time_ms
;
735 callback
->when
.tv_usec
= now
.tv_usec
+ (time_ms
% 1000) * 1000;
736 time_ms
-= (time_ms
% 1000);
737 callback
->when
.tv_sec
= now
.tv_sec
+ time_ms
/ 1000;
738 if (callback
->when
.tv_usec
> 1000000)
740 callback
->when
.tv_usec
= callback
->when
.tv_usec
- 1000000;
741 callback
->when
.tv_sec
+= 1;
747 if((retval
= target_unregister_timer_callback(callback
->callback
, callback
->priv
)) != ERROR_OK
)
753 callback
= next_callback
;
759 int target_call_timer_callbacks(void)
761 return target_call_timer_callbacks_check_time(1);
764 /* invoke periodic callbacks immediately */
765 int target_call_timer_callbacks_now(void)
767 return target_call_timer_callbacks_check_time(0);
770 int target_alloc_working_area(struct target_s
*target
, u32 size
, working_area_t
**area
)
772 working_area_t
*c
= target
->working_areas
;
773 working_area_t
*new_wa
= NULL
;
775 /* Reevaluate working area address based on MMU state*/
776 if (target
->working_areas
== NULL
)
780 retval
= target
->type
->mmu(target
, &enabled
);
781 if (retval
!= ERROR_OK
)
787 target
->working_area
= target
->working_area_virt
;
791 target
->working_area
= target
->working_area_phys
;
795 /* only allocate multiples of 4 byte */
798 LOG_ERROR("BUG: code tried to allocate unaligned number of bytes, padding");
799 size
= CEIL(size
, 4);
802 /* see if there's already a matching working area */
805 if ((c
->free
) && (c
->size
== size
))
813 /* if not, allocate a new one */
816 working_area_t
**p
= &target
->working_areas
;
817 u32 first_free
= target
->working_area
;
818 u32 free_size
= target
->working_area_size
;
820 LOG_DEBUG("allocating new working area");
822 c
= target
->working_areas
;
825 first_free
+= c
->size
;
826 free_size
-= c
->size
;
831 if (free_size
< size
)
833 LOG_WARNING("not enough working area available(requested %d, free %d)", size
, free_size
);
834 return ERROR_TARGET_RESOURCE_NOT_AVAILABLE
;
837 new_wa
= malloc(sizeof(working_area_t
));
840 new_wa
->address
= first_free
;
842 if (target
->backup_working_area
)
845 new_wa
->backup
= malloc(new_wa
->size
);
846 if((retval
= target
->type
->read_memory(target
, new_wa
->address
, 4, new_wa
->size
/ 4, new_wa
->backup
)) != ERROR_OK
)
848 free(new_wa
->backup
);
855 new_wa
->backup
= NULL
;
858 /* put new entry in list */
862 /* mark as used, and return the new (reused) area */
872 int target_free_working_area_restore(struct target_s
*target
, working_area_t
*area
, int restore
)
877 if (restore
&&target
->backup_working_area
)
880 if((retval
= target
->type
->write_memory(target
, area
->address
, 4, area
->size
/ 4, area
->backup
)) != ERROR_OK
)
886 /* mark user pointer invalid */
893 int target_free_working_area(struct target_s
*target
, working_area_t
*area
)
895 return target_free_working_area_restore(target
, area
, 1);
898 /* free resources and restore memory, if restoring memory fails,
899 * free up resources anyway
901 void target_free_all_working_areas_restore(struct target_s
*target
, int restore
)
903 working_area_t
*c
= target
->working_areas
;
907 working_area_t
*next
= c
->next
;
908 target_free_working_area_restore(target
, c
, restore
);
918 target
->working_areas
= NULL
;
921 void target_free_all_working_areas(struct target_s
*target
)
923 target_free_all_working_areas_restore(target
, 1);
926 int target_register_commands(struct command_context_s
*cmd_ctx
)
929 register_command(cmd_ctx
, NULL
, "targets", handle_targets_command
, COMMAND_EXEC
, "change the current command line target (one parameter) or lists targets (with no parameter)");
934 register_jim(cmd_ctx
, "target", jim_target
, "configure target" );
939 int target_arch_state(struct target_s
*target
)
944 LOG_USER("No target has been configured");
948 LOG_USER("target state: %s",
949 Jim_Nvp_value2name_simple(nvp_target_state
,target
->state
)->name
);
951 if (target
->state
!=TARGET_HALTED
)
954 retval
=target
->type
->arch_state(target
);
958 /* Single aligned words are guaranteed to use 16 or 32 bit access
959 * mode respectively, otherwise data is handled as quickly as
962 int target_write_buffer(struct target_s
*target
, u32 address
, u32 size
, u8
*buffer
)
965 LOG_DEBUG("writing buffer of %i byte at 0x%8.8x", size
, address
);
967 if (!target
->type
->examined
)
969 LOG_ERROR("Target not examined yet");
973 if ((address
+ size
- 1) < address
)
975 /* GDB can request this when e.g. PC is 0xfffffffc*/
976 LOG_ERROR("address+size wrapped(0x%08x, 0x%08x)", address
, size
);
980 if (((address
% 2) == 0) && (size
== 2))
982 return target
->type
->write_memory(target
, address
, 2, 1, buffer
);
985 /* handle unaligned head bytes */
988 int unaligned
= 4 - (address
% 4);
990 if (unaligned
> size
)
993 if ((retval
= target
->type
->write_memory(target
, address
, 1, unaligned
, buffer
)) != ERROR_OK
)
997 address
+= unaligned
;
1001 /* handle aligned words */
1004 int aligned
= size
- (size
% 4);
1006 /* use bulk writes above a certain limit. This may have to be changed */
1009 if ((retval
= target
->type
->bulk_write_memory(target
, address
, aligned
/ 4, buffer
)) != ERROR_OK
)
1014 if ((retval
= target
->type
->write_memory(target
, address
, 4, aligned
/ 4, buffer
)) != ERROR_OK
)
1023 /* handle tail writes of less than 4 bytes */
1026 if ((retval
= target
->type
->write_memory(target
, address
, 1, size
, buffer
)) != ERROR_OK
)
1033 /* Single aligned words are guaranteed to use 16 or 32 bit access
1034 * mode respectively, otherwise data is handled as quickly as
1037 int target_read_buffer(struct target_s
*target
, u32 address
, u32 size
, u8
*buffer
)
1040 LOG_DEBUG("reading buffer of %i byte at 0x%8.8x", size
, address
);
1042 if (!target
->type
->examined
)
1044 LOG_ERROR("Target not examined yet");
1048 if ((address
+ size
- 1) < address
)
1050 /* GDB can request this when e.g. PC is 0xfffffffc*/
1051 LOG_ERROR("address+size wrapped(0x%08x, 0x%08x)", address
, size
);
1055 if (((address
% 2) == 0) && (size
== 2))
1057 return target
->type
->read_memory(target
, address
, 2, 1, buffer
);
1060 /* handle unaligned head bytes */
1063 int unaligned
= 4 - (address
% 4);
1065 if (unaligned
> size
)
1068 if ((retval
= target
->type
->read_memory(target
, address
, 1, unaligned
, buffer
)) != ERROR_OK
)
1071 buffer
+= unaligned
;
1072 address
+= unaligned
;
1076 /* handle aligned words */
1079 int aligned
= size
- (size
% 4);
1081 if ((retval
= target
->type
->read_memory(target
, address
, 4, aligned
/ 4, buffer
)) != ERROR_OK
)
1089 /* handle tail writes of less than 4 bytes */
1092 if ((retval
= target
->type
->read_memory(target
, address
, 1, size
, buffer
)) != ERROR_OK
)
1099 int target_checksum_memory(struct target_s
*target
, u32 address
, u32 size
, u32
* crc
)
1105 if (!target
->type
->examined
)
1107 LOG_ERROR("Target not examined yet");
1111 if ((retval
= target
->type
->checksum_memory(target
, address
,
1112 size
, &checksum
)) != ERROR_OK
)
1114 buffer
= malloc(size
);
1117 LOG_ERROR("error allocating buffer for section (%d bytes)", size
);
1118 return ERROR_INVALID_ARGUMENTS
;
1120 retval
= target_read_buffer(target
, address
, size
, buffer
);
1121 if (retval
!= ERROR_OK
)
1127 /* convert to target endianess */
1128 for (i
= 0; i
< (size
/sizeof(u32
)); i
++)
1131 target_data
= target_buffer_get_u32(target
, &buffer
[i
*sizeof(u32
)]);
1132 target_buffer_set_u32(target
, &buffer
[i
*sizeof(u32
)], target_data
);
1135 retval
= image_calculate_checksum( buffer
, size
, &checksum
);
1144 int target_blank_check_memory(struct target_s
*target
, u32 address
, u32 size
, u32
* blank
)
1147 if (!target
->type
->examined
)
1149 LOG_ERROR("Target not examined yet");
1153 if (target
->type
->blank_check_memory
== 0)
1154 return ERROR_TARGET_RESOURCE_NOT_AVAILABLE
;
1156 retval
= target
->type
->blank_check_memory(target
, address
, size
, blank
);
1161 int target_read_u32(struct target_s
*target
, u32 address
, u32
*value
)
1164 if (!target
->type
->examined
)
1166 LOG_ERROR("Target not examined yet");
1170 int retval
= target
->type
->read_memory(target
, address
, 4, 1, value_buf
);
1172 if (retval
== ERROR_OK
)
1174 *value
= target_buffer_get_u32(target
, value_buf
);
1175 LOG_DEBUG("address: 0x%8.8x, value: 0x%8.8x", address
, *value
);
1180 LOG_DEBUG("address: 0x%8.8x failed", address
);
1186 int target_read_u16(struct target_s
*target
, u32 address
, u16
*value
)
1189 if (!target
->type
->examined
)
1191 LOG_ERROR("Target not examined yet");
1195 int retval
= target
->type
->read_memory(target
, address
, 2, 1, value_buf
);
1197 if (retval
== ERROR_OK
)
1199 *value
= target_buffer_get_u16(target
, value_buf
);
1200 LOG_DEBUG("address: 0x%8.8x, value: 0x%4.4x", address
, *value
);
1205 LOG_DEBUG("address: 0x%8.8x failed", address
);
1211 int target_read_u8(struct target_s
*target
, u32 address
, u8
*value
)
1213 int retval
= target
->type
->read_memory(target
, address
, 1, 1, value
);
1214 if (!target
->type
->examined
)
1216 LOG_ERROR("Target not examined yet");
1220 if (retval
== ERROR_OK
)
1222 LOG_DEBUG("address: 0x%8.8x, value: 0x%2.2x", address
, *value
);
1227 LOG_DEBUG("address: 0x%8.8x failed", address
);
1233 int target_write_u32(struct target_s
*target
, u32 address
, u32 value
)
1237 if (!target
->type
->examined
)
1239 LOG_ERROR("Target not examined yet");
1243 LOG_DEBUG("address: 0x%8.8x, value: 0x%8.8x", address
, value
);
1245 target_buffer_set_u32(target
, value_buf
, value
);
1246 if ((retval
= target
->type
->write_memory(target
, address
, 4, 1, value_buf
)) != ERROR_OK
)
1248 LOG_DEBUG("failed: %i", retval
);
1254 int target_write_u16(struct target_s
*target
, u32 address
, u16 value
)
1258 if (!target
->type
->examined
)
1260 LOG_ERROR("Target not examined yet");
1264 LOG_DEBUG("address: 0x%8.8x, value: 0x%8.8x", address
, value
);
1266 target_buffer_set_u16(target
, value_buf
, value
);
1267 if ((retval
= target
->type
->write_memory(target
, address
, 2, 1, value_buf
)) != ERROR_OK
)
1269 LOG_DEBUG("failed: %i", retval
);
1275 int target_write_u8(struct target_s
*target
, u32 address
, u8 value
)
1278 if (!target
->type
->examined
)
1280 LOG_ERROR("Target not examined yet");
1284 LOG_DEBUG("address: 0x%8.8x, value: 0x%2.2x", address
, value
);
1286 if ((retval
= target
->type
->write_memory(target
, address
, 1, 1, &value
)) != ERROR_OK
)
1288 LOG_DEBUG("failed: %i", retval
);
1294 int target_register_user_commands(struct command_context_s
*cmd_ctx
)
1296 int retval
= ERROR_OK
;
1299 /* script procedures */
1300 register_command(cmd_ctx
, NULL
, "profile", handle_profile_command
, COMMAND_EXEC
, "profiling samples the CPU PC");
1301 register_jim(cmd_ctx
, "ocd_mem2array", jim_mem2array
, "read memory and return as a TCL array for script processing");
1302 register_jim(cmd_ctx
, "ocd_array2mem", jim_array2mem
, "convert a TCL array to memory locations and write the values");
1304 register_command(cmd_ctx
, NULL
, "fast_load_image", handle_fast_load_image_command
, COMMAND_ANY
,
1305 "same args as load_image, image stored in memory - mainly for profiling purposes");
1307 register_command(cmd_ctx
, NULL
, "fast_load", handle_fast_load_command
, COMMAND_ANY
,
1308 "loads active fast load image to current target - mainly for profiling purposes");
1311 register_command(cmd_ctx
, NULL
, "virt2phys", handle_virt2phys_command
, COMMAND_ANY
, "translate a virtual address into a physical address");
1312 register_command(cmd_ctx
, NULL
, "reg", handle_reg_command
, COMMAND_EXEC
, "display or set a register");
1313 register_command(cmd_ctx
, NULL
, "poll", handle_poll_command
, COMMAND_EXEC
, "poll target state");
1314 register_command(cmd_ctx
, NULL
, "wait_halt", handle_wait_halt_command
, COMMAND_EXEC
, "wait for target halt [time (s)]");
1315 register_command(cmd_ctx
, NULL
, "halt", handle_halt_command
, COMMAND_EXEC
, "halt target");
1316 register_command(cmd_ctx
, NULL
, "resume", handle_resume_command
, COMMAND_EXEC
, "resume target [addr]");
1317 register_command(cmd_ctx
, NULL
, "step", handle_step_command
, COMMAND_EXEC
, "step one instruction from current PC or [addr]");
1318 register_command(cmd_ctx
, NULL
, "reset", handle_reset_command
, COMMAND_EXEC
, "reset target [run|halt|init] - default is run");
1319 register_command(cmd_ctx
, NULL
, "soft_reset_halt", handle_soft_reset_halt_command
, COMMAND_EXEC
, "halt the target and do a soft reset");
1321 register_command(cmd_ctx
, NULL
, "mdw", handle_md_command
, COMMAND_EXEC
, "display memory words <addr> [count]");
1322 register_command(cmd_ctx
, NULL
, "mdh", handle_md_command
, COMMAND_EXEC
, "display memory half-words <addr> [count]");
1323 register_command(cmd_ctx
, NULL
, "mdb", handle_md_command
, COMMAND_EXEC
, "display memory bytes <addr> [count]");
1325 register_command(cmd_ctx
, NULL
, "mww", handle_mw_command
, COMMAND_EXEC
, "write memory word <addr> <value> [count]");
1326 register_command(cmd_ctx
, NULL
, "mwh", handle_mw_command
, COMMAND_EXEC
, "write memory half-word <addr> <value> [count]");
1327 register_command(cmd_ctx
, NULL
, "mwb", handle_mw_command
, COMMAND_EXEC
, "write memory byte <addr> <value> [count]");
1329 register_command(cmd_ctx
, NULL
, "bp", handle_bp_command
, COMMAND_EXEC
, "set breakpoint <address> <length> [hw]");
1330 register_command(cmd_ctx
, NULL
, "rbp", handle_rbp_command
, COMMAND_EXEC
, "remove breakpoint <adress>");
1331 register_command(cmd_ctx
, NULL
, "wp", handle_wp_command
, COMMAND_EXEC
, "set watchpoint <address> <length> <r/w/a> [value] [mask]");
1332 register_command(cmd_ctx
, NULL
, "rwp", handle_rwp_command
, COMMAND_EXEC
, "remove watchpoint <adress>");
1334 register_command(cmd_ctx
, NULL
, "load_image", handle_load_image_command
, COMMAND_EXEC
, "load_image <file> <address> ['bin'|'ihex'|'elf'|'s19'] [min_address] [max_length]");
1335 register_command(cmd_ctx
, NULL
, "dump_image", handle_dump_image_command
, COMMAND_EXEC
, "dump_image <file> <address> <size>");
1336 register_command(cmd_ctx
, NULL
, "verify_image", handle_verify_image_command
, COMMAND_EXEC
, "verify_image <file> [offset] [type]");
1337 register_command(cmd_ctx
, NULL
, "test_image", handle_test_image_command
, COMMAND_EXEC
, "test_image <file> [offset] [type]");
1339 if((retval
= target_request_register_commands(cmd_ctx
)) != ERROR_OK
)
1341 if((retval
= trace_register_commands(cmd_ctx
)) != ERROR_OK
)
1347 int handle_targets_command(struct command_context_s
*cmd_ctx
, char *cmd
, char **args
, int argc
)
1350 target_t
*target
= all_targets
;
1354 /* try as tcltarget name */
1355 for( target
= all_targets
; target
; target
= target
->next
){
1356 if( target
->cmd_name
){
1357 if( 0 == strcmp( args
[0], target
->cmd_name
) ){
1363 /* no match, try as number */
1365 int num
= strtoul(args
[0], &cp
, 0 );
1367 /* then it was not a number */
1368 command_print( cmd_ctx
, "Target: %s unknown, try one of:\n", args
[0] );
1372 target
= get_target_by_num( num
);
1373 if( target
== NULL
){
1374 command_print(cmd_ctx
,"Target: %s is unknown, try one of:\n", args
[0] );
1378 cmd_ctx
->current_target
= target
->target_number
;
1383 target
= all_targets
;
1384 command_print(cmd_ctx
, " CmdName Type Endian AbsChainPos Name State ");
1385 command_print(cmd_ctx
, "-- ---------- ---------- ---------- ----------- ------------- ----------");
1388 /* XX: abcdefghij abcdefghij abcdefghij abcdefghij */
1389 command_print(cmd_ctx
, "%2d: %-10s %-10s %-10s %10d %14s %s",
1390 target
->target_number
,
1393 Jim_Nvp_value2name_simple( nvp_target_endian
, target
->endianness
)->name
,
1394 target
->tap
->abs_chain_position
,
1395 target
->tap
->dotted_name
,
1396 Jim_Nvp_value2name_simple( nvp_target_state
, target
->state
)->name
);
1397 target
= target
->next
;
1403 /* every 300ms we check for reset & powerdropout and issue a "reset halt" if so. */
1405 static int powerDropout
;
1406 static int srstAsserted
;
1408 static int runPowerRestore
;
1409 static int runPowerDropout
;
1410 static int runSrstAsserted
;
1411 static int runSrstDeasserted
;
1413 static int sense_handler(void)
1415 static int prevSrstAsserted
= 0;
1416 static int prevPowerdropout
= 0;
1419 if ((retval
=jtag_power_dropout(&powerDropout
))!=ERROR_OK
)
1423 powerRestored
= prevPowerdropout
&& !powerDropout
;
1426 runPowerRestore
= 1;
1429 long long current
= timeval_ms();
1430 static long long lastPower
= 0;
1431 int waitMore
= lastPower
+ 2000 > current
;
1432 if (powerDropout
&& !waitMore
)
1434 runPowerDropout
= 1;
1435 lastPower
= current
;
1438 if ((retval
=jtag_srst_asserted(&srstAsserted
))!=ERROR_OK
)
1442 srstDeasserted
= prevSrstAsserted
&& !srstAsserted
;
1444 static long long lastSrst
= 0;
1445 waitMore
= lastSrst
+ 2000 > current
;
1446 if (srstDeasserted
&& !waitMore
)
1448 runSrstDeasserted
= 1;
1452 if (!prevSrstAsserted
&& srstAsserted
)
1454 runSrstAsserted
= 1;
1457 prevSrstAsserted
= srstAsserted
;
1458 prevPowerdropout
= powerDropout
;
1460 if (srstDeasserted
|| powerRestored
)
1462 /* Other than logging the event we can't do anything here.
1463 * Issuing a reset is a particularly bad idea as we might
1464 * be inside a reset already.
1471 /* process target state changes */
1472 int handle_target(void *priv
)
1474 int retval
= ERROR_OK
;
1476 /* we do not want to recurse here... */
1477 static int recursive
= 0;
1482 /* danger! running these procedures can trigger srst assertions and power dropouts.
1483 * We need to avoid an infinite loop/recursion here and we do that by
1484 * clearing the flags after running these events.
1486 int did_something
= 0;
1487 if (runSrstAsserted
)
1489 Jim_Eval( interp
, "srst_asserted");
1492 if (runSrstDeasserted
)
1494 Jim_Eval( interp
, "srst_deasserted");
1497 if (runPowerDropout
)
1499 Jim_Eval( interp
, "power_dropout");
1502 if (runPowerRestore
)
1504 Jim_Eval( interp
, "power_restore");
1510 /* clear detect flags */
1514 /* clear action flags */
1517 runSrstDeasserted
=0;
1524 target_t
*target
= all_targets
;
1529 /* only poll target if we've got power and srst isn't asserted */
1530 if (target_continous_poll
&&!powerDropout
&&!srstAsserted
)
1532 /* polling may fail silently until the target has been examined */
1533 if((retval
= target_poll(target
)) != ERROR_OK
)
1537 target
= target
->next
;
1543 int handle_reg_command(struct command_context_s
*cmd_ctx
, char *cmd
, char **args
, int argc
)
1552 target
= get_current_target(cmd_ctx
);
1554 /* list all available registers for the current target */
1557 reg_cache_t
*cache
= target
->reg_cache
;
1563 for (i
= 0; i
< cache
->num_regs
; i
++)
1565 value
= buf_to_str(cache
->reg_list
[i
].value
, cache
->reg_list
[i
].size
, 16);
1566 command_print(cmd_ctx
, "(%i) %s (/%i): 0x%s (dirty: %i, valid: %i)", count
++, cache
->reg_list
[i
].name
, cache
->reg_list
[i
].size
, value
, cache
->reg_list
[i
].dirty
, cache
->reg_list
[i
].valid
);
1569 cache
= cache
->next
;
1575 /* access a single register by its ordinal number */
1576 if ((args
[0][0] >= '0') && (args
[0][0] <= '9'))
1578 int num
= strtoul(args
[0], NULL
, 0);
1579 reg_cache_t
*cache
= target
->reg_cache
;
1585 for (i
= 0; i
< cache
->num_regs
; i
++)
1589 reg
= &cache
->reg_list
[i
];
1595 cache
= cache
->next
;
1600 command_print(cmd_ctx
, "%i is out of bounds, the current target has only %i registers (0 - %i)", num
, count
, count
- 1);
1603 } else /* access a single register by its name */
1605 reg
= register_get_by_name(target
->reg_cache
, args
[0], 1);
1609 command_print(cmd_ctx
, "register %s not found in current target", args
[0]);
1614 /* display a register */
1615 if ((argc
== 1) || ((argc
== 2) && !((args
[1][0] >= '0') && (args
[1][0] <= '9'))))
1617 if ((argc
== 2) && (strcmp(args
[1], "force") == 0))
1620 if (reg
->valid
== 0)
1622 reg_arch_type_t
*arch_type
= register_get_arch_type(reg
->arch_type
);
1623 arch_type
->get(reg
);
1625 value
= buf_to_str(reg
->value
, reg
->size
, 16);
1626 command_print(cmd_ctx
, "%s (/%i): 0x%s", reg
->name
, reg
->size
, value
);
1631 /* set register value */
1634 u8
*buf
= malloc(CEIL(reg
->size
, 8));
1635 str_to_buf(args
[1], strlen(args
[1]), buf
, reg
->size
, 0);
1637 reg_arch_type_t
*arch_type
= register_get_arch_type(reg
->arch_type
);
1638 arch_type
->set(reg
, buf
);
1640 value
= buf_to_str(reg
->value
, reg
->size
, 16);
1641 command_print(cmd_ctx
, "%s (/%i): 0x%s", reg
->name
, reg
->size
, value
);
1649 command_print(cmd_ctx
, "usage: reg <#|name> [value]");
1654 int handle_poll_command(struct command_context_s
*cmd_ctx
, char *cmd
, char **args
, int argc
)
1656 int retval
= ERROR_OK
;
1657 target_t
*target
= get_current_target(cmd_ctx
);
1661 if((retval
= target_poll(target
)) != ERROR_OK
)
1663 if((retval
= target_arch_state(target
)) != ERROR_OK
)
1669 if (strcmp(args
[0], "on") == 0)
1671 target_continous_poll
= 1;
1673 else if (strcmp(args
[0], "off") == 0)
1675 target_continous_poll
= 0;
1679 command_print(cmd_ctx
, "arg is \"on\" or \"off\"");
1683 return ERROR_COMMAND_SYNTAX_ERROR
;
1689 int handle_wait_halt_command(struct command_context_s
*cmd_ctx
, char *cmd
, char **args
, int argc
)
1697 ms
= strtoul(args
[0], &end
, 0) * 1000;
1700 command_print(cmd_ctx
, "usage: %s [seconds]", cmd
);
1704 target_t
*target
= get_current_target(cmd_ctx
);
1706 return target_wait_state(target
, TARGET_HALTED
, ms
);
1709 /* wait for target state to change. The trick here is to have a low
1710 * latency for short waits and not to suck up all the CPU time
1713 * After 500ms, keep_alive() is invoked
1715 int target_wait_state(target_t
*target
, enum target_state state
, int ms
)
1718 long long then
=0, cur
;
1723 if ((retval
=target_poll(target
))!=ERROR_OK
)
1725 if (target
->state
== state
)
1733 then
= timeval_ms();
1734 LOG_DEBUG("waiting for target %s...",
1735 Jim_Nvp_value2name_simple(nvp_target_state
,state
)->name
);
1745 LOG_ERROR("timed out while waiting for target %s",
1746 Jim_Nvp_value2name_simple(nvp_target_state
,state
)->name
);
1754 int handle_halt_command(struct command_context_s
*cmd_ctx
, char *cmd
, char **args
, int argc
)
1757 target_t
*target
= get_current_target(cmd_ctx
);
1761 if ((retval
= target_halt(target
)) != ERROR_OK
)
1771 wait
= strtoul(args
[0], &end
, 0);
1776 return handle_wait_halt_command(cmd_ctx
, cmd
, args
, argc
);
1779 int handle_soft_reset_halt_command(struct command_context_s
*cmd_ctx
, char *cmd
, char **args
, int argc
)
1781 target_t
*target
= get_current_target(cmd_ctx
);
1783 LOG_USER("requesting target halt and executing a soft reset");
1785 target
->type
->soft_reset_halt(target
);
1790 int handle_reset_command(struct command_context_s
*cmd_ctx
, char *cmd
, char **args
, int argc
)
1793 enum target_reset_mode reset_mode
= RESET_RUN
;
1797 n
= Jim_Nvp_name2value_simple( nvp_reset_modes
, args
[0] );
1798 if( (n
->name
== NULL
) || (n
->value
== RESET_UNKNOWN
) ){
1799 return ERROR_COMMAND_SYNTAX_ERROR
;
1801 reset_mode
= n
->value
;
1804 /* reset *all* targets */
1805 return target_process_reset(cmd_ctx
, reset_mode
);
1809 int handle_resume_command(struct command_context_s
*cmd_ctx
, char *cmd
, char **args
, int argc
)
1812 target_t
*target
= get_current_target(cmd_ctx
);
1814 target_handle_event( target
, TARGET_EVENT_OLD_pre_resume
);
1817 retval
= target_resume(target
, 1, 0, 1, 0); /* current pc, addr = 0, handle breakpoints, not debugging */
1819 retval
= target_resume(target
, 0, strtoul(args
[0], NULL
, 0), 1, 0); /* addr = args[0], handle breakpoints, not debugging */
1822 retval
= ERROR_COMMAND_SYNTAX_ERROR
;
1828 int handle_step_command(struct command_context_s
*cmd_ctx
, char *cmd
, char **args
, int argc
)
1830 target_t
*target
= get_current_target(cmd_ctx
);
1835 return target
->type
->step(target
, 1, 0, 1); /* current pc, addr = 0, handle breakpoints */
1838 return target
->type
->step(target
, 0, strtoul(args
[0], NULL
, 0), 1); /* addr = args[0], handle breakpoints */
1843 int handle_md_command(struct command_context_s
*cmd_ctx
, char *cmd
, char **args
, int argc
)
1845 const int line_bytecnt
= 32;
1858 target_t
*target
= get_current_target(cmd_ctx
);
1864 count
= strtoul(args
[1], NULL
, 0);
1866 address
= strtoul(args
[0], NULL
, 0);
1871 size
= 4; line_modulo
= line_bytecnt
/ 4;
1874 size
= 2; line_modulo
= line_bytecnt
/ 2;
1877 size
= 1; line_modulo
= line_bytecnt
/ 1;
1883 buffer
= calloc(count
, size
);
1884 retval
= target
->type
->read_memory(target
, address
, size
, count
, buffer
);
1885 if (retval
== ERROR_OK
)
1889 for (i
= 0; i
< count
; i
++)
1891 if (i
%line_modulo
== 0)
1892 output_len
+= snprintf(output
+ output_len
, 128 - output_len
, "0x%8.8x: ", address
+ (i
*size
));
1897 output_len
+= snprintf(output
+ output_len
, 128 - output_len
, "%8.8x ", target_buffer_get_u32(target
, &buffer
[i
*4]));
1900 output_len
+= snprintf(output
+ output_len
, 128 - output_len
, "%4.4x ", target_buffer_get_u16(target
, &buffer
[i
*2]));
1903 output_len
+= snprintf(output
+ output_len
, 128 - output_len
, "%2.2x ", buffer
[i
*1]);
1907 if ((i
%line_modulo
== line_modulo
-1) || (i
== count
- 1))
1909 command_print(cmd_ctx
, output
);
1920 int handle_mw_command(struct command_context_s
*cmd_ctx
, char *cmd
, char **args
, int argc
)
1927 target_t
*target
= get_current_target(cmd_ctx
);
1930 if ((argc
< 2) || (argc
> 3))
1931 return ERROR_COMMAND_SYNTAX_ERROR
;
1933 address
= strtoul(args
[0], NULL
, 0);
1934 value
= strtoul(args
[1], NULL
, 0);
1936 count
= strtoul(args
[2], NULL
, 0);
1942 target_buffer_set_u32(target
, value_buf
, value
);
1946 target_buffer_set_u16(target
, value_buf
, value
);
1950 value_buf
[0] = value
;
1953 return ERROR_COMMAND_SYNTAX_ERROR
;
1955 for (i
=0; i
<count
; i
++)
1961 retval
= target
->type
->write_memory(target
, address
+ i
*wordsize
, 4, 1, value_buf
);
1964 retval
= target
->type
->write_memory(target
, address
+ i
*wordsize
, 2, 1, value_buf
);
1967 retval
= target
->type
->write_memory(target
, address
+ i
*wordsize
, 1, 1, value_buf
);
1974 if (retval
!=ERROR_OK
)
1984 int handle_load_image_command(struct command_context_s
*cmd_ctx
, char *cmd
, char **args
, int argc
)
1990 u32 max_address
=0xffffffff;
1992 int retval
, retvaltemp
;
1996 duration_t duration
;
1997 char *duration_text
;
1999 target_t
*target
= get_current_target(cmd_ctx
);
2001 if ((argc
< 1)||(argc
> 5))
2003 return ERROR_COMMAND_SYNTAX_ERROR
;
2006 /* a base address isn't always necessary, default to 0x0 (i.e. don't relocate) */
2009 image
.base_address_set
= 1;
2010 image
.base_address
= strtoul(args
[1], NULL
, 0);
2014 image
.base_address_set
= 0;
2018 image
.start_address_set
= 0;
2022 min_address
=strtoul(args
[3], NULL
, 0);
2026 max_address
=strtoul(args
[4], NULL
, 0)+min_address
;
2029 if (min_address
>max_address
)
2031 return ERROR_COMMAND_SYNTAX_ERROR
;
2034 duration_start_measure(&duration
);
2036 if (image_open(&image
, args
[0], (argc
>= 3) ? args
[2] : NULL
) != ERROR_OK
)
2043 for (i
= 0; i
< image
.num_sections
; i
++)
2045 buffer
= malloc(image
.sections
[i
].size
);
2048 command_print(cmd_ctx
, "error allocating buffer for section (%d bytes)", image
.sections
[i
].size
);
2052 if ((retval
= image_read_section(&image
, i
, 0x0, image
.sections
[i
].size
, buffer
, &buf_cnt
)) != ERROR_OK
)
2061 /* DANGER!!! beware of unsigned comparision here!!! */
2063 if ((image
.sections
[i
].base_address
+buf_cnt
>=min_address
)&&
2064 (image
.sections
[i
].base_address
<max_address
))
2066 if (image
.sections
[i
].base_address
<min_address
)
2068 /* clip addresses below */
2069 offset
+=min_address
-image
.sections
[i
].base_address
;
2073 if (image
.sections
[i
].base_address
+buf_cnt
>max_address
)
2075 length
-=(image
.sections
[i
].base_address
+buf_cnt
)-max_address
;
2078 if ((retval
= target_write_buffer(target
, image
.sections
[i
].base_address
+offset
, length
, buffer
+offset
)) != ERROR_OK
)
2083 image_size
+= length
;
2084 command_print(cmd_ctx
, "%u byte written at address 0x%8.8x", length
, image
.sections
[i
].base_address
+offset
);
2090 if((retvaltemp
= duration_stop_measure(&duration
, &duration_text
)) != ERROR_OK
)
2092 image_close(&image
);
2096 if (retval
==ERROR_OK
)
2098 command_print(cmd_ctx
, "downloaded %u byte in %s", image_size
, duration_text
);
2100 free(duration_text
);
2102 image_close(&image
);
2108 int handle_dump_image_command(struct command_context_s
*cmd_ctx
, char *cmd
, char **args
, int argc
)
2115 int retval
=ERROR_OK
, retvaltemp
;
2117 duration_t duration
;
2118 char *duration_text
;
2120 target_t
*target
= get_current_target(cmd_ctx
);
2124 command_print(cmd_ctx
, "usage: dump_image <filename> <address> <size>");
2128 address
= strtoul(args
[1], NULL
, 0);
2129 size
= strtoul(args
[2], NULL
, 0);
2131 if ((address
& 3) || (size
& 3))
2133 command_print(cmd_ctx
, "only 32-bit aligned address and size are supported");
2137 if (fileio_open(&fileio
, args
[0], FILEIO_WRITE
, FILEIO_BINARY
) != ERROR_OK
)
2142 duration_start_measure(&duration
);
2147 u32 this_run_size
= (size
> 560) ? 560 : size
;
2149 retval
= target
->type
->read_memory(target
, address
, 4, this_run_size
/ 4, buffer
);
2150 if (retval
!= ERROR_OK
)
2155 retval
= fileio_write(&fileio
, this_run_size
, buffer
, &size_written
);
2156 if (retval
!= ERROR_OK
)
2161 size
-= this_run_size
;
2162 address
+= this_run_size
;
2165 if((retvaltemp
= fileio_close(&fileio
)) != ERROR_OK
)
2168 if((retvaltemp
= duration_stop_measure(&duration
, &duration_text
)) != ERROR_OK
)
2171 if (retval
==ERROR_OK
)
2173 command_print(cmd_ctx
, "dumped %"PRIi64
" byte in %s", fileio
.size
, duration_text
);
2175 free(duration_text
);
2180 int handle_verify_image_command_internal(struct command_context_s
*cmd_ctx
, char *cmd
, char **args
, int argc
, int verify
)
2186 int retval
, retvaltemp
;
2188 u32 mem_checksum
= 0;
2192 duration_t duration
;
2193 char *duration_text
;
2195 target_t
*target
= get_current_target(cmd_ctx
);
2199 return ERROR_COMMAND_SYNTAX_ERROR
;
2204 LOG_ERROR("no target selected");
2208 duration_start_measure(&duration
);
2212 image
.base_address_set
= 1;
2213 image
.base_address
= strtoul(args
[1], NULL
, 0);
2217 image
.base_address_set
= 0;
2218 image
.base_address
= 0x0;
2221 image
.start_address_set
= 0;
2223 if ((retval
=image_open(&image
, args
[0], (argc
== 3) ? args
[2] : NULL
)) != ERROR_OK
)
2230 for (i
= 0; i
< image
.num_sections
; i
++)
2232 buffer
= malloc(image
.sections
[i
].size
);
2235 command_print(cmd_ctx
, "error allocating buffer for section (%d bytes)", image
.sections
[i
].size
);
2238 if ((retval
= image_read_section(&image
, i
, 0x0, image
.sections
[i
].size
, buffer
, &buf_cnt
)) != ERROR_OK
)
2246 /* calculate checksum of image */
2247 image_calculate_checksum( buffer
, buf_cnt
, &checksum
);
2249 retval
= target_checksum_memory(target
, image
.sections
[i
].base_address
, buf_cnt
, &mem_checksum
);
2250 if( retval
!= ERROR_OK
)
2256 if( checksum
!= mem_checksum
)
2258 /* failed crc checksum, fall back to a binary compare */
2261 command_print(cmd_ctx
, "checksum mismatch - attempting binary compare");
2263 data
= (u8
*)malloc(buf_cnt
);
2265 /* Can we use 32bit word accesses? */
2267 int count
= buf_cnt
;
2268 if ((count
% 4) == 0)
2273 retval
= target
->type
->read_memory(target
, image
.sections
[i
].base_address
, size
, count
, data
);
2274 if (retval
== ERROR_OK
)
2277 for (t
= 0; t
< buf_cnt
; t
++)
2279 if (data
[t
] != buffer
[t
])
2281 command_print(cmd_ctx
, "Verify operation failed address 0x%08x. Was 0x%02x instead of 0x%02x\n", t
+ image
.sections
[i
].base_address
, data
[t
], buffer
[t
]);
2298 command_print(cmd_ctx
, "address 0x%08x length 0x%08x", image
.sections
[i
].base_address
, buf_cnt
);
2302 image_size
+= buf_cnt
;
2306 if((retvaltemp
= duration_stop_measure(&duration
, &duration_text
)) != ERROR_OK
)
2308 image_close(&image
);
2312 if (retval
==ERROR_OK
)
2314 command_print(cmd_ctx
, "verified %u bytes in %s", image_size
, duration_text
);
2316 free(duration_text
);
2318 image_close(&image
);
2323 int handle_verify_image_command(struct command_context_s
*cmd_ctx
, char *cmd
, char **args
, int argc
)
2325 return handle_verify_image_command_internal(cmd_ctx
, cmd
, args
, argc
, 1);
2328 int handle_test_image_command(struct command_context_s
*cmd_ctx
, char *cmd
, char **args
, int argc
)
2330 return handle_verify_image_command_internal(cmd_ctx
, cmd
, args
, argc
, 0);
2333 int handle_bp_command(struct command_context_s
*cmd_ctx
, char *cmd
, char **args
, int argc
)
2336 target_t
*target
= get_current_target(cmd_ctx
);
2340 breakpoint_t
*breakpoint
= target
->breakpoints
;
2344 if (breakpoint
->type
== BKPT_SOFT
)
2346 char* buf
= buf_to_str(breakpoint
->orig_instr
, breakpoint
->length
, 16);
2347 command_print(cmd_ctx
, "0x%8.8x, 0x%x, %i, 0x%s", breakpoint
->address
, breakpoint
->length
, breakpoint
->set
, buf
);
2352 command_print(cmd_ctx
, "0x%8.8x, 0x%x, %i", breakpoint
->address
, breakpoint
->length
, breakpoint
->set
);
2354 breakpoint
= breakpoint
->next
;
2362 length
= strtoul(args
[1], NULL
, 0);
2365 if (strcmp(args
[2], "hw") == 0)
2368 if ((retval
= breakpoint_add(target
, strtoul(args
[0], NULL
, 0), length
, hw
)) != ERROR_OK
)
2370 LOG_ERROR("Failure setting breakpoints");
2374 command_print(cmd_ctx
, "breakpoint added at address 0x%8.8x", strtoul(args
[0], NULL
, 0));
2379 command_print(cmd_ctx
, "usage: bp <address> <length> ['hw']");
2385 int handle_rbp_command(struct command_context_s
*cmd_ctx
, char *cmd
, char **args
, int argc
)
2387 target_t
*target
= get_current_target(cmd_ctx
);
2390 breakpoint_remove(target
, strtoul(args
[0], NULL
, 0));
2395 int handle_wp_command(struct command_context_s
*cmd_ctx
, char *cmd
, char **args
, int argc
)
2397 target_t
*target
= get_current_target(cmd_ctx
);
2402 watchpoint_t
*watchpoint
= target
->watchpoints
;
2406 command_print(cmd_ctx
, "address: 0x%8.8x, len: 0x%8.8x, r/w/a: %i, value: 0x%8.8x, mask: 0x%8.8x", watchpoint
->address
, watchpoint
->length
, watchpoint
->rw
, watchpoint
->value
, watchpoint
->mask
);
2407 watchpoint
= watchpoint
->next
;
2412 enum watchpoint_rw type
= WPT_ACCESS
;
2413 u32 data_value
= 0x0;
2414 u32 data_mask
= 0xffffffff;
2430 command_print(cmd_ctx
, "usage: wp <address> <length> [r/w/a] [value] [mask]");
2436 data_value
= strtoul(args
[3], NULL
, 0);
2440 data_mask
= strtoul(args
[4], NULL
, 0);
2443 if ((retval
= watchpoint_add(target
, strtoul(args
[0], NULL
, 0),
2444 strtoul(args
[1], NULL
, 0), type
, data_value
, data_mask
)) != ERROR_OK
)
2446 LOG_ERROR("Failure setting breakpoints");
2451 command_print(cmd_ctx
, "usage: wp <address> <length> [r/w/a] [value] [mask]");
2457 int handle_rwp_command(struct command_context_s
*cmd_ctx
, char *cmd
, char **args
, int argc
)
2459 target_t
*target
= get_current_target(cmd_ctx
);
2462 watchpoint_remove(target
, strtoul(args
[0], NULL
, 0));
2467 int handle_virt2phys_command(command_context_t
*cmd_ctx
, char *cmd
, char **args
, int argc
)
2470 target_t
*target
= get_current_target(cmd_ctx
);
2476 return ERROR_COMMAND_SYNTAX_ERROR
;
2478 va
= strtoul(args
[0], NULL
, 0);
2480 retval
= target
->type
->virt2phys(target
, va
, &pa
);
2481 if (retval
== ERROR_OK
)
2483 command_print(cmd_ctx
, "Physical address 0x%08x", pa
);
2487 /* lower levels will have logged a detailed error which is
2488 * forwarded to telnet/GDB session.
2494 static void writeLong(FILE *f
, int l
)
2499 char c
=(l
>>(i
*8))&0xff;
2500 fwrite(&c
, 1, 1, f
);
2505 static void writeString(FILE *f
, char *s
)
2507 fwrite(s
, 1, strlen(s
), f
);
2510 /* Dump a gmon.out histogram file. */
2511 static void writeGmon(u32
*samples
, int sampleNum
, char *filename
)
2514 FILE *f
=fopen(filename
, "w");
2517 fwrite("gmon", 1, 4, f
);
2518 writeLong(f
, 0x00000001); /* Version */
2519 writeLong(f
, 0); /* padding */
2520 writeLong(f
, 0); /* padding */
2521 writeLong(f
, 0); /* padding */
2523 fwrite("", 1, 1, f
); /* GMON_TAG_TIME_HIST */
2525 /* figure out bucket size */
2528 for (i
=0; i
<sampleNum
; i
++)
2540 int addressSpace
=(max
-min
+1);
2542 static int const maxBuckets
=256*1024; /* maximum buckets. */
2543 int length
=addressSpace
;
2544 if (length
> maxBuckets
)
2548 int *buckets
=malloc(sizeof(int)*length
);
2554 memset(buckets
, 0, sizeof(int)*length
);
2555 for (i
=0; i
<sampleNum
;i
++)
2557 u32 address
=samples
[i
];
2558 long long a
=address
-min
;
2559 long long b
=length
-1;
2560 long long c
=addressSpace
-1;
2561 int index
=(a
*b
)/c
; /* danger!!!! int32 overflows */
2565 /* append binary memory gmon.out &profile_hist_hdr ((char*)&profile_hist_hdr + sizeof(struct gmon_hist_hdr)) */
2566 writeLong(f
, min
); /* low_pc */
2567 writeLong(f
, max
); /* high_pc */
2568 writeLong(f
, length
); /* # of samples */
2569 writeLong(f
, 64000000); /* 64MHz */
2570 writeString(f
, "seconds");
2571 for (i
=0; i
<(15-strlen("seconds")); i
++)
2573 fwrite("", 1, 1, f
); /* padding */
2575 writeString(f
, "s");
2577 /*append binary memory gmon.out profile_hist_data (profile_hist_data + profile_hist_hdr.hist_size) */
2579 char *data
=malloc(2*length
);
2582 for (i
=0; i
<length
;i
++)
2591 data
[i
*2+1]=(val
>>8)&0xff;
2594 fwrite(data
, 1, length
*2, f
);
2604 /* profiling samples the CPU PC as quickly as OpenOCD is able, which will be used as a random sampling of PC */
2605 int handle_profile_command(struct command_context_s
*cmd_ctx
, char *cmd
, char **args
, int argc
)
2607 target_t
*target
= get_current_target(cmd_ctx
);
2608 struct timeval timeout
, now
;
2610 gettimeofday(&timeout
, NULL
);
2613 return ERROR_COMMAND_SYNTAX_ERROR
;
2616 timeval_add_time(&timeout
, strtoul(args
[0], &end
, 0), 0);
2622 command_print(cmd_ctx
, "Starting profiling. Halting and resuming the target as often as we can...");
2624 static const int maxSample
=10000;
2625 u32
*samples
=malloc(sizeof(u32
)*maxSample
);
2630 int retval
=ERROR_OK
;
2631 /* hopefully it is safe to cache! We want to stop/restart as quickly as possible. */
2632 reg_t
*reg
= register_get_by_name(target
->reg_cache
, "pc", 1);
2636 target_poll(target
);
2637 if (target
->state
== TARGET_HALTED
)
2639 u32 t
=*((u32
*)reg
->value
);
2640 samples
[numSamples
++]=t
;
2641 retval
= target_resume(target
, 1, 0, 0, 0); /* current pc, addr = 0, do not handle breakpoints, not debugging */
2642 target_poll(target
);
2643 alive_sleep(10); /* sleep 10ms, i.e. <100 samples/second. */
2644 } else if (target
->state
== TARGET_RUNNING
)
2646 /* We want to quickly sample the PC. */
2647 if((retval
= target_halt(target
)) != ERROR_OK
)
2654 command_print(cmd_ctx
, "Target not halted or running");
2658 if (retval
!=ERROR_OK
)
2663 gettimeofday(&now
, NULL
);
2664 if ((numSamples
>=maxSample
) || ((now
.tv_sec
>= timeout
.tv_sec
) && (now
.tv_usec
>= timeout
.tv_usec
)))
2666 command_print(cmd_ctx
, "Profiling completed. %d samples.", numSamples
);
2667 if((retval
= target_poll(target
)) != ERROR_OK
)
2672 if (target
->state
== TARGET_HALTED
)
2674 target_resume(target
, 1, 0, 0, 0); /* current pc, addr = 0, do not handle breakpoints, not debugging */
2676 if((retval
= target_poll(target
)) != ERROR_OK
)
2681 writeGmon(samples
, numSamples
, args
[1]);
2682 command_print(cmd_ctx
, "Wrote %s", args
[1]);
2691 static int new_int_array_element(Jim_Interp
* interp
, const char *varname
, int idx
, u32 val
)
2694 Jim_Obj
*nameObjPtr
, *valObjPtr
;
2697 namebuf
= alloc_printf("%s(%d)", varname
, idx
);
2701 nameObjPtr
= Jim_NewStringObj(interp
, namebuf
, -1);
2702 valObjPtr
= Jim_NewIntObj(interp
, val
);
2703 if (!nameObjPtr
|| !valObjPtr
)
2709 Jim_IncrRefCount(nameObjPtr
);
2710 Jim_IncrRefCount(valObjPtr
);
2711 result
= Jim_SetVariable(interp
, nameObjPtr
, valObjPtr
);
2712 Jim_DecrRefCount(interp
, nameObjPtr
);
2713 Jim_DecrRefCount(interp
, valObjPtr
);
2715 /* printf("%s(%d) <= 0%08x\n", varname, idx, val); */
2719 static int jim_mem2array(Jim_Interp
*interp
, int argc
, Jim_Obj
*const *argv
)
2721 command_context_t
*context
;
2724 context
= Jim_GetAssocData(interp
, "context");
2725 if (context
== NULL
)
2727 LOG_ERROR("mem2array: no command context");
2730 target
= get_current_target(context
);
2733 LOG_ERROR("mem2array: no current target");
2737 return target_mem2array(interp
, target
, argc
,argv
);
2740 static int target_mem2array(Jim_Interp
*interp
, target_t
*target
, int argc
, Jim_Obj
*const *argv
)
2748 const char *varname
;
2750 int i
, n
, e
, retval
;
2752 /* argv[1] = name of array to receive the data
2753 * argv[2] = desired width
2754 * argv[3] = memory address
2755 * argv[4] = count of times to read
2758 Jim_WrongNumArgs(interp
, 1, argv
, "varname width addr nelems");
2761 varname
= Jim_GetString(argv
[1], &len
);
2762 /* given "foo" get space for worse case "foo(%d)" .. add 20 */
2764 e
= Jim_GetLong(interp
, argv
[2], &l
);
2770 e
= Jim_GetLong(interp
, argv
[3], &l
);
2775 e
= Jim_GetLong(interp
, argv
[4], &l
);
2791 Jim_SetResult(interp
, Jim_NewEmptyStringObj(interp
));
2792 Jim_AppendStrings( interp
, Jim_GetResult(interp
), "Invalid width param, must be 8/16/32", NULL
);
2796 Jim_SetResult(interp
, Jim_NewEmptyStringObj(interp
));
2797 Jim_AppendStrings(interp
, Jim_GetResult(interp
), "mem2array: zero width read?", NULL
);
2800 if ((addr
+ (len
* width
)) < addr
) {
2801 Jim_SetResult(interp
, Jim_NewEmptyStringObj(interp
));
2802 Jim_AppendStrings(interp
, Jim_GetResult(interp
), "mem2array: addr + len - wraps to zero?", NULL
);
2805 /* absurd transfer size? */
2807 Jim_SetResult(interp
, Jim_NewEmptyStringObj(interp
));
2808 Jim_AppendStrings(interp
, Jim_GetResult(interp
), "mem2array: absurd > 64K item request", NULL
);
2813 ((width
== 2) && ((addr
& 1) == 0)) ||
2814 ((width
== 4) && ((addr
& 3) == 0))) {
2818 Jim_SetResult(interp
, Jim_NewEmptyStringObj(interp
));
2819 sprintf(buf
, "mem2array address: 0x%08x is not aligned for %d byte reads", addr
, width
);
2820 Jim_AppendStrings(interp
, Jim_GetResult(interp
), buf
, NULL
);
2831 /* Slurp... in buffer size chunks */
2833 count
= len
; /* in objects.. */
2834 if (count
> (sizeof(buffer
)/width
)) {
2835 count
= (sizeof(buffer
)/width
);
2838 retval
= target
->type
->read_memory( target
, addr
, width
, count
, buffer
);
2839 if (retval
!= ERROR_OK
) {
2841 LOG_ERROR("mem2array: Read @ 0x%08x, w=%d, cnt=%d, failed", addr
, width
, count
);
2842 Jim_SetResult(interp
, Jim_NewEmptyStringObj(interp
));
2843 Jim_AppendStrings(interp
, Jim_GetResult(interp
), "mem2array: cannot read memory", NULL
);
2847 v
= 0; /* shut up gcc */
2848 for (i
= 0 ;i
< count
;i
++, n
++) {
2851 v
= target_buffer_get_u32(target
, &buffer
[i
*width
]);
2854 v
= target_buffer_get_u16(target
, &buffer
[i
*width
]);
2857 v
= buffer
[i
] & 0x0ff;
2860 new_int_array_element(interp
, varname
, n
, v
);
2866 Jim_SetResult(interp
, Jim_NewEmptyStringObj(interp
));
2871 static int get_int_array_element(Jim_Interp
* interp
, const char *varname
, int idx
, u32
*val
)
2874 Jim_Obj
*nameObjPtr
, *valObjPtr
;
2878 namebuf
= alloc_printf("%s(%d)", varname
, idx
);
2882 nameObjPtr
= Jim_NewStringObj(interp
, namebuf
, -1);
2889 Jim_IncrRefCount(nameObjPtr
);
2890 valObjPtr
= Jim_GetVariable(interp
, nameObjPtr
, JIM_ERRMSG
);
2891 Jim_DecrRefCount(interp
, nameObjPtr
);
2893 if (valObjPtr
== NULL
)
2896 result
= Jim_GetLong(interp
, valObjPtr
, &l
);
2897 /* printf("%s(%d) => 0%08x\n", varname, idx, val); */
2902 static int jim_array2mem(Jim_Interp
*interp
, int argc
, Jim_Obj
*const *argv
)
2904 command_context_t
*context
;
2907 context
= Jim_GetAssocData(interp
, "context");
2908 if (context
== NULL
){
2909 LOG_ERROR("array2mem: no command context");
2912 target
= get_current_target(context
);
2913 if (target
== NULL
){
2914 LOG_ERROR("array2mem: no current target");
2918 return target_array2mem( interp
,target
, argc
, argv
);
2921 static int target_array2mem(Jim_Interp
*interp
, target_t
*target
, int argc
, Jim_Obj
*const *argv
)
2929 const char *varname
;
2931 int i
, n
, e
, retval
;
2933 /* argv[1] = name of array to get the data
2934 * argv[2] = desired width
2935 * argv[3] = memory address
2936 * argv[4] = count to write
2939 Jim_WrongNumArgs(interp
, 1, argv
, "varname width addr nelems");
2942 varname
= Jim_GetString(argv
[1], &len
);
2943 /* given "foo" get space for worse case "foo(%d)" .. add 20 */
2945 e
= Jim_GetLong(interp
, argv
[2], &l
);
2951 e
= Jim_GetLong(interp
, argv
[3], &l
);
2956 e
= Jim_GetLong(interp
, argv
[4], &l
);
2972 Jim_SetResult(interp
, Jim_NewEmptyStringObj(interp
));
2973 Jim_AppendStrings( interp
, Jim_GetResult(interp
), "Invalid width param, must be 8/16/32", NULL
);
2977 Jim_SetResult(interp
, Jim_NewEmptyStringObj(interp
));
2978 Jim_AppendStrings(interp
, Jim_GetResult(interp
), "array2mem: zero width read?", NULL
);
2981 if ((addr
+ (len
* width
)) < addr
) {
2982 Jim_SetResult(interp
, Jim_NewEmptyStringObj(interp
));
2983 Jim_AppendStrings(interp
, Jim_GetResult(interp
), "array2mem: addr + len - wraps to zero?", NULL
);
2986 /* absurd transfer size? */
2988 Jim_SetResult(interp
, Jim_NewEmptyStringObj(interp
));
2989 Jim_AppendStrings(interp
, Jim_GetResult(interp
), "array2mem: absurd > 64K item request", NULL
);
2994 ((width
== 2) && ((addr
& 1) == 0)) ||
2995 ((width
== 4) && ((addr
& 3) == 0))) {
2999 Jim_SetResult(interp
, Jim_NewEmptyStringObj(interp
));
3000 sprintf(buf
, "array2mem address: 0x%08x is not aligned for %d byte reads", addr
, width
);
3001 Jim_AppendStrings(interp
, Jim_GetResult(interp
), buf
, NULL
);
3012 /* Slurp... in buffer size chunks */
3014 count
= len
; /* in objects.. */
3015 if (count
> (sizeof(buffer
)/width
)) {
3016 count
= (sizeof(buffer
)/width
);
3019 v
= 0; /* shut up gcc */
3020 for (i
= 0 ;i
< count
;i
++, n
++) {
3021 get_int_array_element(interp
, varname
, n
, &v
);
3024 target_buffer_set_u32(target
, &buffer
[i
*width
], v
);
3027 target_buffer_set_u16(target
, &buffer
[i
*width
], v
);
3030 buffer
[i
] = v
& 0x0ff;
3036 retval
= target
->type
->write_memory(target
, addr
, width
, count
, buffer
);
3037 if (retval
!= ERROR_OK
) {
3039 LOG_ERROR("array2mem: Write @ 0x%08x, w=%d, cnt=%d, failed", addr
, width
, count
);
3040 Jim_SetResult(interp
, Jim_NewEmptyStringObj(interp
));
3041 Jim_AppendStrings(interp
, Jim_GetResult(interp
), "array2mem: cannot read memory", NULL
);
3047 Jim_SetResult(interp
, Jim_NewEmptyStringObj(interp
));
3052 void target_all_handle_event( enum target_event e
)
3056 LOG_DEBUG( "**all*targets: event: %d, %s",
3058 Jim_Nvp_value2name_simple( nvp_target_event
, e
)->name
);
3060 target
= all_targets
;
3062 target_handle_event( target
, e
);
3063 target
= target
->next
;
3067 void target_handle_event( target_t
*target
, enum target_event e
)
3069 target_event_action_t
*teap
;
3072 teap
= target
->event_action
;
3076 if( teap
->event
== e
){
3078 LOG_DEBUG( "target: (%d) %s (%s) event: %d (%s) action: %s\n",
3079 target
->target_number
,
3083 Jim_Nvp_value2name_simple( nvp_target_event
, e
)->name
,
3084 Jim_GetString( teap
->body
, NULL
) );
3085 if (Jim_EvalObj( interp
, teap
->body
)!=JIM_OK
)
3087 Jim_PrintErrorMessage(interp
);
3093 LOG_DEBUG( "event: %d %s - no action",
3095 Jim_Nvp_value2name_simple( nvp_target_event
, e
)->name
);
3099 enum target_cfg_param
{
3102 TCFG_WORK_AREA_VIRT
,
3103 TCFG_WORK_AREA_PHYS
,
3104 TCFG_WORK_AREA_SIZE
,
3105 TCFG_WORK_AREA_BACKUP
,
3108 TCFG_CHAIN_POSITION
,
3111 static Jim_Nvp nvp_config_opts
[] = {
3112 { .name
= "-type", .value
= TCFG_TYPE
},
3113 { .name
= "-event", .value
= TCFG_EVENT
},
3114 { .name
= "-work-area-virt", .value
= TCFG_WORK_AREA_VIRT
},
3115 { .name
= "-work-area-phys", .value
= TCFG_WORK_AREA_PHYS
},
3116 { .name
= "-work-area-size", .value
= TCFG_WORK_AREA_SIZE
},
3117 { .name
= "-work-area-backup", .value
= TCFG_WORK_AREA_BACKUP
},
3118 { .name
= "-endian" , .value
= TCFG_ENDIAN
},
3119 { .name
= "-variant", .value
= TCFG_VARIANT
},
3120 { .name
= "-chain-position", .value
= TCFG_CHAIN_POSITION
},
3122 { .name
= NULL
, .value
= -1 }
3125 static int target_configure( Jim_GetOptInfo
*goi
, target_t
*target
)
3133 /* parse config or cget options ... */
3134 while( goi
->argc
> 0 ){
3135 Jim_SetEmptyResult( goi
->interp
);
3136 /* Jim_GetOpt_Debug( goi ); */
3138 if( target
->type
->target_jim_configure
){
3139 /* target defines a configure function */
3140 /* target gets first dibs on parameters */
3141 e
= (*(target
->type
->target_jim_configure
))( target
, goi
);
3150 /* otherwise we 'continue' below */
3152 e
= Jim_GetOpt_Nvp( goi
, nvp_config_opts
, &n
);
3154 Jim_GetOpt_NvpUnknown( goi
, nvp_config_opts
, 0 );
3160 if( goi
->isconfigure
){
3161 Jim_SetResult_sprintf( goi
->interp
, "not setable: %s", n
->name
);
3165 if( goi
->argc
!= 0 ){
3166 Jim_WrongNumArgs( goi
->interp
, goi
->argc
, goi
->argv
, "NO PARAMS");
3170 Jim_SetResultString( goi
->interp
, target
->type
->name
, -1 );
3174 if( goi
->argc
== 0 ){
3175 Jim_WrongNumArgs( goi
->interp
, goi
->argc
, goi
->argv
, "-event ?event-name? ...");
3179 e
= Jim_GetOpt_Nvp( goi
, nvp_target_event
, &n
);
3181 Jim_GetOpt_NvpUnknown( goi
, nvp_target_event
, 1 );
3185 if( goi
->isconfigure
){
3186 if( goi
->argc
!= 1 ){
3187 Jim_WrongNumArgs( goi
->interp
, goi
->argc
, goi
->argv
, "-event ?event-name? ?EVENT-BODY?");
3191 if( goi
->argc
!= 0 ){
3192 Jim_WrongNumArgs(goi
->interp
, goi
->argc
, goi
->argv
, "-event ?event-name?");
3198 target_event_action_t
*teap
;
3200 teap
= target
->event_action
;
3201 /* replace existing? */
3203 if( teap
->event
== n
->value
){
3209 if( goi
->isconfigure
){
3212 teap
= calloc( 1, sizeof(*teap
) );
3214 teap
->event
= n
->value
;
3215 Jim_GetOpt_Obj( goi
, &o
);
3217 Jim_DecrRefCount( interp
, teap
->body
);
3219 teap
->body
= Jim_DuplicateObj( goi
->interp
, o
);
3222 * Tcl/TK - "tk events" have a nice feature.
3223 * See the "BIND" command.
3224 * We should support that here.
3225 * You can specify %X and %Y in the event code.
3226 * The idea is: %T - target name.
3227 * The idea is: %N - target number
3228 * The idea is: %E - event name.
3230 Jim_IncrRefCount( teap
->body
);
3232 /* add to head of event list */
3233 teap
->next
= target
->event_action
;
3234 target
->event_action
= teap
;
3235 Jim_SetEmptyResult(goi
->interp
);
3239 Jim_SetEmptyResult( goi
->interp
);
3241 Jim_SetResult( goi
->interp
, Jim_DuplicateObj( goi
->interp
, teap
->body
) );
3248 case TCFG_WORK_AREA_VIRT
:
3249 if( goi
->isconfigure
){
3250 target_free_all_working_areas(target
);
3251 e
= Jim_GetOpt_Wide( goi
, &w
);
3255 target
->working_area_virt
= w
;
3257 if( goi
->argc
!= 0 ){
3261 Jim_SetResult( interp
, Jim_NewIntObj( goi
->interp
, target
->working_area_virt
) );
3265 case TCFG_WORK_AREA_PHYS
:
3266 if( goi
->isconfigure
){
3267 target_free_all_working_areas(target
);
3268 e
= Jim_GetOpt_Wide( goi
, &w
);
3272 target
->working_area_phys
= w
;
3274 if( goi
->argc
!= 0 ){
3278 Jim_SetResult( interp
, Jim_NewIntObj( goi
->interp
, target
->working_area_phys
) );
3282 case TCFG_WORK_AREA_SIZE
:
3283 if( goi
->isconfigure
){
3284 target_free_all_working_areas(target
);
3285 e
= Jim_GetOpt_Wide( goi
, &w
);
3289 target
->working_area_size
= w
;
3291 if( goi
->argc
!= 0 ){
3295 Jim_SetResult( interp
, Jim_NewIntObj( goi
->interp
, target
->working_area_size
) );
3299 case TCFG_WORK_AREA_BACKUP
:
3300 if( goi
->isconfigure
){
3301 target_free_all_working_areas(target
);
3302 e
= Jim_GetOpt_Wide( goi
, &w
);
3306 /* make this exactly 1 or 0 */
3307 target
->backup_working_area
= (!!w
);
3309 if( goi
->argc
!= 0 ){
3313 Jim_SetResult( interp
, Jim_NewIntObj( goi
->interp
, target
->working_area_size
) );
3314 /* loop for more e*/
3318 if( goi
->isconfigure
){
3319 e
= Jim_GetOpt_Nvp( goi
, nvp_target_endian
, &n
);
3321 Jim_GetOpt_NvpUnknown( goi
, nvp_target_endian
, 1 );
3324 target
->endianness
= n
->value
;
3326 if( goi
->argc
!= 0 ){
3330 n
= Jim_Nvp_value2name_simple( nvp_target_endian
, target
->endianness
);
3331 if( n
->name
== NULL
){
3332 target
->endianness
= TARGET_LITTLE_ENDIAN
;
3333 n
= Jim_Nvp_value2name_simple( nvp_target_endian
, target
->endianness
);
3335 Jim_SetResultString( goi
->interp
, n
->name
, -1 );
3340 if( goi
->isconfigure
){
3341 if( goi
->argc
< 1 ){
3342 Jim_SetResult_sprintf( goi
->interp
,
3347 if( target
->variant
){
3348 free((void *)(target
->variant
));
3350 e
= Jim_GetOpt_String( goi
, &cp
, NULL
);
3351 target
->variant
= strdup(cp
);
3353 if( goi
->argc
!= 0 ){
3357 Jim_SetResultString( goi
->interp
, target
->variant
,-1 );
3360 case TCFG_CHAIN_POSITION
:
3361 if( goi
->isconfigure
){
3364 target_free_all_working_areas(target
);
3365 e
= Jim_GetOpt_Obj( goi
, &o
);
3369 tap
= jtag_TapByJimObj( goi
->interp
, o
);
3373 /* make this exactly 1 or 0 */
3376 if( goi
->argc
!= 0 ){
3380 Jim_SetResultString( interp
, target
->tap
->dotted_name
, -1 );
3381 /* loop for more e*/
3384 } /* while( goi->argc ) */
3387 /* done - we return */
3391 /** this is the 'tcl' handler for the target specific command */
3392 static int tcl_target_func( Jim_Interp
*interp
, int argc
, Jim_Obj
*const *argv
)
3400 struct command_context_s
*cmd_ctx
;
3407 TS_CMD_MWW
, TS_CMD_MWH
, TS_CMD_MWB
,
3408 TS_CMD_MDW
, TS_CMD_MDH
, TS_CMD_MDB
,
3409 TS_CMD_MRW
, TS_CMD_MRH
, TS_CMD_MRB
,
3410 TS_CMD_MEM2ARRAY
, TS_CMD_ARRAY2MEM
,
3418 TS_CMD_INVOKE_EVENT
,
3421 static const Jim_Nvp target_options
[] = {
3422 { .name
= "configure", .value
= TS_CMD_CONFIGURE
},
3423 { .name
= "cget", .value
= TS_CMD_CGET
},
3424 { .name
= "mww", .value
= TS_CMD_MWW
},
3425 { .name
= "mwh", .value
= TS_CMD_MWH
},
3426 { .name
= "mwb", .value
= TS_CMD_MWB
},
3427 { .name
= "mdw", .value
= TS_CMD_MDW
},
3428 { .name
= "mdh", .value
= TS_CMD_MDH
},
3429 { .name
= "mdb", .value
= TS_CMD_MDB
},
3430 { .name
= "mem2array", .value
= TS_CMD_MEM2ARRAY
},
3431 { .name
= "array2mem", .value
= TS_CMD_ARRAY2MEM
},
3432 { .name
= "eventlist", .value
= TS_CMD_EVENTLIST
},
3433 { .name
= "curstate", .value
= TS_CMD_CURSTATE
},
3435 { .name
= "arp_examine", .value
= TS_CMD_EXAMINE
},
3436 { .name
= "arp_poll", .value
= TS_CMD_POLL
},
3437 { .name
= "arp_reset", .value
= TS_CMD_RESET
},
3438 { .name
= "arp_halt", .value
= TS_CMD_HALT
},
3439 { .name
= "arp_waitstate", .value
= TS_CMD_WAITSTATE
},
3440 { .name
= "invoke-event", .value
= TS_CMD_INVOKE_EVENT
},
3442 { .name
= NULL
, .value
= -1 },
3445 /* go past the "command" */
3446 Jim_GetOpt_Setup( &goi
, interp
, argc
-1, argv
+1 );
3448 target
= Jim_CmdPrivData( goi
.interp
);
3449 cmd_ctx
= Jim_GetAssocData(goi
.interp
, "context");
3451 /* commands here are in an NVP table */
3452 e
= Jim_GetOpt_Nvp( &goi
, target_options
, &n
);
3454 Jim_GetOpt_NvpUnknown( &goi
, target_options
, 0 );
3457 /* Assume blank result */
3458 Jim_SetEmptyResult( goi
.interp
);
3461 case TS_CMD_CONFIGURE
:
3463 Jim_WrongNumArgs( goi
.interp
, goi
.argc
, goi
.argv
, "missing: -option VALUE ...");
3466 goi
.isconfigure
= 1;
3467 return target_configure( &goi
, target
);
3469 // some things take params
3471 Jim_WrongNumArgs( goi
.interp
, 0, goi
.argv
, "missing: ?-option?");
3474 goi
.isconfigure
= 0;
3475 return target_configure( &goi
, target
);
3483 * argv[3] = optional count.
3486 if( (goi
.argc
== 3) || (goi
.argc
== 4) ){
3490 Jim_SetResult_sprintf( goi
.interp
, "expected: %s ADDR DATA [COUNT]", n
->name
);
3494 e
= Jim_GetOpt_Wide( &goi
, &a
);
3499 e
= Jim_GetOpt_Wide( &goi
, &b
);
3504 e
= Jim_GetOpt_Wide( &goi
, &c
);
3514 target_buffer_set_u32( target
, target_buf
, b
);
3518 target_buffer_set_u16( target
, target_buf
, b
);
3522 target_buffer_set_u8( target
, target_buf
, b
);
3526 for( x
= 0 ; x
< c
; x
++ ){
3527 e
= target
->type
->write_memory( target
, a
, b
, 1, target_buf
);
3528 if( e
!= ERROR_OK
){
3529 Jim_SetResult_sprintf( interp
, "Error writing @ 0x%08x: %d\n", (int)(a
), e
);
3542 /* argv[0] = command
3544 * argv[2] = optional count
3546 if( (goi
.argc
== 2) || (goi
.argc
== 3) ){
3547 Jim_SetResult_sprintf( goi
.interp
, "expected: %s ADDR [COUNT]", n
->name
);
3550 e
= Jim_GetOpt_Wide( &goi
, &a
);
3555 e
= Jim_GetOpt_Wide( &goi
, &c
);
3562 b
= 1; /* shut up gcc */
3575 /* convert to "bytes" */
3577 /* count is now in 'BYTES' */
3583 e
= target
->type
->read_memory( target
, a
, b
, y
/ b
, target_buf
);
3584 if( e
!= ERROR_OK
){
3585 Jim_SetResult_sprintf( interp
, "error reading target @ 0x%08lx", (int)(a
) );
3589 Jim_fprintf( interp
, interp
->cookie_stdout
, "0x%08x ", (int)(a
) );
3592 for( x
= 0 ; (x
< 16) && (x
< y
) ; x
+= 4 ){
3593 z
= target_buffer_get_u32( target
, &(target_buf
[ x
* 4 ]) );
3594 Jim_fprintf( interp
, interp
->cookie_stdout
, "%08x ", (int)(z
) );
3596 for( ; (x
< 16) ; x
+= 4 ){
3597 Jim_fprintf( interp
, interp
->cookie_stdout
, " " );
3601 for( x
= 0 ; (x
< 16) && (x
< y
) ; x
+= 2 ){
3602 z
= target_buffer_get_u16( target
, &(target_buf
[ x
* 2 ]) );
3603 Jim_fprintf( interp
, interp
->cookie_stdout
, "%04x ", (int)(z
) );
3605 for( ; (x
< 16) ; x
+= 2 ){
3606 Jim_fprintf( interp
, interp
->cookie_stdout
, " " );
3611 for( x
= 0 ; (x
< 16) && (x
< y
) ; x
+= 1 ){
3612 z
= target_buffer_get_u8( target
, &(target_buf
[ x
* 4 ]) );
3613 Jim_fprintf( interp
, interp
->cookie_stdout
, "%02x ", (int)(z
) );
3615 for( ; (x
< 16) ; x
+= 1 ){
3616 Jim_fprintf( interp
, interp
->cookie_stdout
, " " );
3620 /* ascii-ify the bytes */
3621 for( x
= 0 ; x
< y
; x
++ ){
3622 if( (target_buf
[x
] >= 0x20) &&
3623 (target_buf
[x
] <= 0x7e) ){
3627 target_buf
[x
] = '.';
3632 target_buf
[x
] = ' ';
3637 /* print - with a newline */
3638 Jim_fprintf( interp
, interp
->cookie_stdout
, "%s\n", target_buf
);
3644 case TS_CMD_MEM2ARRAY
:
3645 return target_mem2array( goi
.interp
, target
, goi
.argc
, goi
.argv
);
3647 case TS_CMD_ARRAY2MEM
:
3648 return target_array2mem( goi
.interp
, target
, goi
.argc
, goi
.argv
);
3650 case TS_CMD_EXAMINE
:
3652 Jim_WrongNumArgs( goi
.interp
, 2, argv
, "[no parameters]");
3655 e
= target
->type
->examine( target
);
3656 if( e
!= ERROR_OK
){
3657 Jim_SetResult_sprintf( interp
, "examine-fails: %d", e
);
3663 Jim_WrongNumArgs( goi
.interp
, 2, argv
, "[no parameters]");
3666 if( !(target
->type
->examined
) ){
3667 e
= ERROR_TARGET_NOT_EXAMINED
;
3669 e
= target
->type
->poll( target
);
3671 if( e
!= ERROR_OK
){
3672 Jim_SetResult_sprintf( interp
, "poll-fails: %d", e
);
3679 if( goi
.argc
!= 2 ){
3680 Jim_WrongNumArgs( interp
, 2, argv
, "t|f|assert|deassert BOOL");
3683 e
= Jim_GetOpt_Nvp( &goi
, nvp_assert
, &n
);
3685 Jim_GetOpt_NvpUnknown( &goi
, nvp_assert
, 1 );
3688 /* the halt or not param */
3689 e
= Jim_GetOpt_Wide( &goi
, &a
);
3693 /* determine if we should halt or not. */
3694 target
->reset_halt
= !!a
;
3695 /* When this happens - all workareas are invalid. */
3696 target_free_all_working_areas_restore(target
, 0);
3699 if( n
->value
== NVP_ASSERT
){
3700 target
->type
->assert_reset( target
);
3702 target
->type
->deassert_reset( target
);
3707 Jim_WrongNumArgs( goi
.interp
, 0, argv
, "halt [no parameters]");
3710 target
->type
->halt( target
);
3712 case TS_CMD_WAITSTATE
:
3713 /* params: <name> statename timeoutmsecs */
3714 if( goi
.argc
!= 2 ){
3715 Jim_SetResult_sprintf( goi
.interp
, "%s STATENAME TIMEOUTMSECS", n
->name
);
3718 e
= Jim_GetOpt_Nvp( &goi
, nvp_target_state
, &n
);
3720 Jim_GetOpt_NvpUnknown( &goi
, nvp_target_state
,1 );
3723 e
= Jim_GetOpt_Wide( &goi
, &a
);
3727 e
= target_wait_state( target
, n
->value
, a
);
3728 if( e
!= ERROR_OK
){
3729 Jim_SetResult_sprintf( goi
.interp
,
3730 "target: %s wait %s fails (%d) %s",
3733 e
, target_strerror_safe(e
) );
3738 case TS_CMD_EVENTLIST
:
3739 /* List for human, Events defined for this target.
3740 * scripts/programs should use 'name cget -event NAME'
3743 target_event_action_t
*teap
;
3744 teap
= target
->event_action
;
3745 command_print( cmd_ctx
, "Event actions for target (%d) %s\n",
3746 target
->target_number
,
3748 command_print( cmd_ctx
, "%-25s | Body", "Event");
3749 command_print( cmd_ctx
, "------------------------- | ----------------------------------------");
3751 command_print( cmd_ctx
,
3753 Jim_Nvp_value2name_simple( nvp_target_event
, teap
->event
)->name
,
3754 Jim_GetString( teap
->body
, NULL
) );
3757 command_print( cmd_ctx
, "***END***");
3760 case TS_CMD_CURSTATE
:
3761 if( goi
.argc
!= 0 ){
3762 Jim_WrongNumArgs( goi
.interp
, 0, argv
, "[no parameters]");
3765 Jim_SetResultString( goi
.interp
,
3766 Jim_Nvp_value2name_simple(nvp_target_state
,target
->state
)->name
,-1);
3768 case TS_CMD_INVOKE_EVENT
:
3769 if( goi
.argc
!= 1 ){
3770 Jim_SetResult_sprintf( goi
.interp
, "%s ?EVENTNAME?",n
->name
);
3773 e
= Jim_GetOpt_Nvp( &goi
, nvp_target_event
, &n
);
3775 Jim_GetOpt_NvpUnknown( &goi
, nvp_target_event
, 1 );
3778 target_handle_event( target
, n
->value
);
3784 static int target_create( Jim_GetOptInfo
*goi
)
3793 struct command_context_s
*cmd_ctx
;
3795 cmd_ctx
= Jim_GetAssocData(goi
->interp
, "context");
3796 if( goi
->argc
< 3 ){
3797 Jim_WrongNumArgs( goi
->interp
, 1, goi
->argv
, "?name? ?type? ..options...");
3802 Jim_GetOpt_Obj( goi
, &new_cmd
);
3803 /* does this command exist? */
3804 cmd
= Jim_GetCommand( goi
->interp
, new_cmd
, JIM_ERRMSG
);
3806 cp
= Jim_GetString( new_cmd
, NULL
);
3807 Jim_SetResult_sprintf(goi
->interp
, "Command/target: %s Exists", cp
);
3812 e
= Jim_GetOpt_String( goi
, &cp2
, NULL
);
3814 /* now does target type exist */
3815 for( x
= 0 ; target_types
[x
] ; x
++ ){
3816 if( 0 == strcmp( cp
, target_types
[x
]->name
) ){
3821 if( target_types
[x
] == NULL
){
3822 Jim_SetResult_sprintf( goi
->interp
, "Unknown target type %s, try one of ", cp
);
3823 for( x
= 0 ; target_types
[x
] ; x
++ ){
3824 if( target_types
[x
+1] ){
3825 Jim_AppendStrings( goi
->interp
,
3826 Jim_GetResult(goi
->interp
),
3827 target_types
[x
]->name
,
3830 Jim_AppendStrings( goi
->interp
,
3831 Jim_GetResult(goi
->interp
),
3833 target_types
[x
]->name
,NULL
);
3840 target
= calloc(1,sizeof(target_t
));
3841 /* set target number */
3842 target
->target_number
= new_target_number();
3844 /* allocate memory for each unique target type */
3845 target
->type
= (target_type_t
*)calloc(1,sizeof(target_type_t
));
3847 memcpy( target
->type
, target_types
[x
], sizeof(target_type_t
));
3849 /* will be set by "-endian" */
3850 target
->endianness
= TARGET_ENDIAN_UNKNOWN
;
3852 target
->working_area
= 0x0;
3853 target
->working_area_size
= 0x0;
3854 target
->working_areas
= NULL
;
3855 target
->backup_working_area
= 0;
3857 target
->state
= TARGET_UNKNOWN
;
3858 target
->debug_reason
= DBG_REASON_UNDEFINED
;
3859 target
->reg_cache
= NULL
;
3860 target
->breakpoints
= NULL
;
3861 target
->watchpoints
= NULL
;
3862 target
->next
= NULL
;
3863 target
->arch_info
= NULL
;
3865 target
->display
= 1;
3867 /* initialize trace information */
3868 target
->trace_info
= malloc(sizeof(trace_t
));
3869 target
->trace_info
->num_trace_points
= 0;
3870 target
->trace_info
->trace_points_size
= 0;
3871 target
->trace_info
->trace_points
= NULL
;
3872 target
->trace_info
->trace_history_size
= 0;
3873 target
->trace_info
->trace_history
= NULL
;
3874 target
->trace_info
->trace_history_pos
= 0;
3875 target
->trace_info
->trace_history_overflowed
= 0;
3877 target
->dbgmsg
= NULL
;
3878 target
->dbg_msg_enabled
= 0;
3880 target
->endianness
= TARGET_ENDIAN_UNKNOWN
;
3882 /* Do the rest as "configure" options */
3883 goi
->isconfigure
= 1;
3884 e
= target_configure( goi
, target
);
3886 if (target
->tap
== NULL
)
3888 Jim_SetResultString( interp
, "-chain-position required when creating target", -1);
3893 free( target
->type
);
3898 if( target
->endianness
== TARGET_ENDIAN_UNKNOWN
){
3899 /* default endian to little if not specified */
3900 target
->endianness
= TARGET_LITTLE_ENDIAN
;
3903 /* incase variant is not set */
3904 if (!target
->variant
)
3905 target
->variant
= strdup("");
3907 /* create the target specific commands */
3908 if( target
->type
->register_commands
){
3909 (*(target
->type
->register_commands
))( cmd_ctx
);
3911 if( target
->type
->target_create
){
3912 (*(target
->type
->target_create
))( target
, goi
->interp
);
3915 /* append to end of list */
3918 tpp
= &(all_targets
);
3920 tpp
= &( (*tpp
)->next
);
3925 cp
= Jim_GetString( new_cmd
, NULL
);
3926 target
->cmd_name
= strdup(cp
);
3928 /* now - create the new target name command */
3929 e
= Jim_CreateCommand( goi
->interp
,
3932 tcl_target_func
, /* C function */
3933 target
, /* private data */
3934 NULL
); /* no del proc */
3939 static int jim_target( Jim_Interp
*interp
, int argc
, Jim_Obj
*const *argv
)
3943 struct command_context_s
*cmd_ctx
;
3947 /* TG = target generic */
3955 const char *target_cmds
[] = {
3956 "create", "types", "names", "current", "number",
3958 NULL
/* terminate */
3961 LOG_DEBUG("Target command params:");
3962 LOG_DEBUG(Jim_Debug_ArgvString( interp
, argc
, argv
) );
3964 cmd_ctx
= Jim_GetAssocData( interp
, "context" );
3966 Jim_GetOpt_Setup( &goi
, interp
, argc
-1, argv
+1 );
3968 if( goi
.argc
== 0 ){
3969 Jim_WrongNumArgs(interp
, 1, argv
, "missing: command ...");
3973 /* Jim_GetOpt_Debug( &goi ); */
3974 r
= Jim_GetOpt_Enum( &goi
, target_cmds
, &x
);
3981 Jim_Panic(goi
.interp
,"Why am I here?");
3983 case TG_CMD_CURRENT
:
3984 if( goi
.argc
!= 0 ){
3985 Jim_WrongNumArgs( goi
.interp
, 1, goi
.argv
, "Too many parameters");
3988 Jim_SetResultString( goi
.interp
, get_current_target( cmd_ctx
)->cmd_name
, -1 );
3991 if( goi
.argc
!= 0 ){
3992 Jim_WrongNumArgs( goi
.interp
, 1, goi
.argv
, "Too many parameters" );
3995 Jim_SetResult( goi
.interp
, Jim_NewListObj( goi
.interp
, NULL
, 0 ) );
3996 for( x
= 0 ; target_types
[x
] ; x
++ ){
3997 Jim_ListAppendElement( goi
.interp
,
3998 Jim_GetResult(goi
.interp
),
3999 Jim_NewStringObj( goi
.interp
, target_types
[x
]->name
, -1 ) );
4003 if( goi
.argc
!= 0 ){
4004 Jim_WrongNumArgs( goi
.interp
, 1, goi
.argv
, "Too many parameters" );
4007 Jim_SetResult( goi
.interp
, Jim_NewListObj( goi
.interp
, NULL
, 0 ) );
4008 target
= all_targets
;
4010 Jim_ListAppendElement( goi
.interp
,
4011 Jim_GetResult(goi
.interp
),
4012 Jim_NewStringObj( goi
.interp
, target
->cmd_name
, -1 ) );
4013 target
= target
->next
;
4018 Jim_WrongNumArgs( goi
.interp
, goi
.argc
, goi
.argv
, "?name ... config options ...");
4021 return target_create( &goi
);
4024 if( goi
.argc
!= 1 ){
4025 Jim_SetResult_sprintf( goi
.interp
, "expected: target number ?NUMBER?");
4028 e
= Jim_GetOpt_Wide( &goi
, &w
);
4034 t
= get_target_by_num(w
);
4036 Jim_SetResult_sprintf( goi
.interp
,"Target: number %d does not exist", (int)(w
));
4039 Jim_SetResultString( goi
.interp
, t
->cmd_name
, -1 );
4043 if( goi
.argc
!= 0 ){
4044 Jim_WrongNumArgs( goi
.interp
, 0, goi
.argv
, "<no parameters>");
4047 Jim_SetResult( goi
.interp
,
4048 Jim_NewIntObj( goi
.interp
, max_target_number()));
4064 static int fastload_num
;
4065 static struct FastLoad
*fastload
;
4067 static void free_fastload(void)
4072 for (i
=0; i
<fastload_num
; i
++)
4074 if (fastload
[i
].data
)
4075 free(fastload
[i
].data
);
4085 int handle_fast_load_image_command(struct command_context_s
*cmd_ctx
, char *cmd
, char **args
, int argc
)
4091 u32 max_address
=0xffffffff;
4097 duration_t duration
;
4098 char *duration_text
;
4100 if ((argc
< 1)||(argc
> 5))
4102 return ERROR_COMMAND_SYNTAX_ERROR
;
4105 /* a base address isn't always necessary, default to 0x0 (i.e. don't relocate) */
4108 image
.base_address_set
= 1;
4109 image
.base_address
= strtoul(args
[1], NULL
, 0);
4113 image
.base_address_set
= 0;
4117 image
.start_address_set
= 0;
4121 min_address
=strtoul(args
[3], NULL
, 0);
4125 max_address
=strtoul(args
[4], NULL
, 0)+min_address
;
4128 if (min_address
>max_address
)
4130 return ERROR_COMMAND_SYNTAX_ERROR
;
4133 duration_start_measure(&duration
);
4135 if (image_open(&image
, args
[0], (argc
>= 3) ? args
[2] : NULL
) != ERROR_OK
)
4142 fastload_num
=image
.num_sections
;
4143 fastload
=(struct FastLoad
*)malloc(sizeof(struct FastLoad
)*image
.num_sections
);
4146 image_close(&image
);
4149 memset(fastload
, 0, sizeof(struct FastLoad
)*image
.num_sections
);
4150 for (i
= 0; i
< image
.num_sections
; i
++)
4152 buffer
= malloc(image
.sections
[i
].size
);
4155 command_print(cmd_ctx
, "error allocating buffer for section (%d bytes)", image
.sections
[i
].size
);
4159 if ((retval
= image_read_section(&image
, i
, 0x0, image
.sections
[i
].size
, buffer
, &buf_cnt
)) != ERROR_OK
)
4169 /* DANGER!!! beware of unsigned comparision here!!! */
4171 if ((image
.sections
[i
].base_address
+buf_cnt
>=min_address
)&&
4172 (image
.sections
[i
].base_address
<max_address
))
4174 if (image
.sections
[i
].base_address
<min_address
)
4176 /* clip addresses below */
4177 offset
+=min_address
-image
.sections
[i
].base_address
;
4181 if (image
.sections
[i
].base_address
+buf_cnt
>max_address
)
4183 length
-=(image
.sections
[i
].base_address
+buf_cnt
)-max_address
;
4186 fastload
[i
].address
=image
.sections
[i
].base_address
+offset
;
4187 fastload
[i
].data
=malloc(length
);
4188 if (fastload
[i
].data
==NULL
)
4193 memcpy(fastload
[i
].data
, buffer
+offset
, length
);
4194 fastload
[i
].length
=length
;
4196 image_size
+= length
;
4197 command_print(cmd_ctx
, "%u byte written at address 0x%8.8x", length
, image
.sections
[i
].base_address
+offset
);
4203 duration_stop_measure(&duration
, &duration_text
);
4204 if (retval
==ERROR_OK
)
4206 command_print(cmd_ctx
, "Loaded %u bytes in %s", image_size
, duration_text
);
4207 command_print(cmd_ctx
, "NB!!! image has not been loaded to target, issue a subsequent 'fast_load' to do so.");
4209 free(duration_text
);
4211 image_close(&image
);
4213 if (retval
!=ERROR_OK
)
4221 int handle_fast_load_command(struct command_context_s
*cmd_ctx
, char *cmd
, char **args
, int argc
)
4224 return ERROR_COMMAND_SYNTAX_ERROR
;
4227 LOG_ERROR("No image in memory");
4231 int ms
=timeval_ms();
4233 int retval
=ERROR_OK
;
4234 for (i
=0; i
<fastload_num
;i
++)
4236 target_t
*target
= get_current_target(cmd_ctx
);
4237 command_print(cmd_ctx
, "Write to 0x%08x, length 0x%08x", fastload
[i
].address
, fastload
[i
].length
);
4238 if (retval
==ERROR_OK
)
4240 retval
= target_write_buffer(target
, fastload
[i
].address
, fastload
[i
].length
, fastload
[i
].data
);
4242 size
+=fastload
[i
].length
;
4244 int after
=timeval_ms();
4245 command_print(cmd_ctx
, "Loaded image %f kBytes/s", (float)(size
/1024.0)/((float)(after
-ms
)/1000.0));
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