1 /***************************************************************************
2 * Copyright (C) 2011 by Rodrigo L. Rosa *
3 * rodrigorosa.LG@gmail.com *
5 * Based on dsp563xx_once.h written by Mathias Kuester *
6 * mkdorg@users.sourceforge.net *
8 * This program is free software; you can redistribute it and/or modify *
9 * it under the terms of the GNU General Public License as published by *
10 * the Free Software Foundation; either version 2 of the License, or *
11 * (at your option) any later version. *
13 * This program is distributed in the hope that it will be useful, *
14 * but WITHOUT ANY WARRANTY; without even the implied warranty of *
15 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the *
16 * GNU General Public License for more details. *
18 * You should have received a copy of the GNU General Public License *
19 * along with this program; if not, write to the *
20 * Free Software Foundation, Inc., *
21 * 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. *
22 ***************************************************************************/
28 #include "target_type.h"
29 #include "dsp5680xx.h"
31 #define err_check(retval,err_msg) if(retval != ERROR_OK){LOG_ERROR("%s: %d %s.",__FUNCTION__,__LINE__,err_msg);return retval;}
32 #define err_check_propagate(retval) if(retval!=ERROR_OK){return retval;}
34 // Forward declarations, could try to optimize this.
35 static int eonce_instruction_exec(struct target
* target
, uint8_t instr
, uint8_t rw
, uint8_t go
, uint8_t ex
, uint8_t * eonce_status
);
36 static int eonce_load_TX_RX_to_r0(struct target
* target
);
37 static int eonce_enter_debug_mode(struct target
* target
, uint16_t * eonce_status
);
38 static int eonce_read_status_reg(struct target
* target
, uint16_t * data
);
39 static int eonce_pc_store(struct target
* target
);
40 static int eonce_move_value_to_pc(struct target
* target
, uint32_t value
);
41 static int dsp5680xx_jtag_status(struct target
*target
, uint8_t * status
);
42 static int dsp5680xx_resume(struct target
*target
, int current
, uint32_t address
,int handle_breakpoints
, int debug_execution
);
43 static int dsp5680xx_halt(struct target
*target
);
44 static int dsp5680xx_write(struct target
*target
, uint32_t address
, uint32_t size
, uint32_t count
, const uint8_t * buffer
);
46 int dsp5680xx_execute_queue(void){
48 retval
= jtag_execute_queue();
49 err_check_propagate(retval
);
53 static int eonce_exit_debug_mode(struct target
* target
,uint8_t * eonce_status
){
55 retval
= eonce_instruction_exec(target
,0x1F,0,0,1,eonce_status
);
56 err_check_propagate(retval
);
61 static int dsp5680xx_drscan(struct target
* target
, uint8_t * data_to_shift_into_dr
, uint8_t * data_shifted_out_of_dr
, int len
){
62 // -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- --
65 // - data_to_shift_into_dr: This is the data that will be shifted into the JTAG DR reg.
66 // - data_shifted_out_of_dr: The data that will be shifted out of the JTAG DR reg will stored here
67 // - len: Length of the data to be shifted to JTAG DR.
69 // Note: If data_shifted_out_of_dr == NULL, discard incoming bits.
71 // -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- --
72 int retval
= ERROR_OK
;
73 if (NULL
== target
->tap
){
75 err_check(retval
,"Invalid tap");
79 err_check(retval
,"dr_len overflow, maxium is 32");
81 //TODO what values of len are valid for jtag_add_plain_dr_scan?
82 //can i send as many bits as i want?
83 //is the casting necessary?
84 jtag_add_plain_dr_scan(len
,data_to_shift_into_dr
,data_shifted_out_of_dr
, TAP_IDLE
);
86 retval
= dsp5680xx_execute_queue();
87 err_check_propagate(retval
);
89 if(data_shifted_out_of_dr
!=NULL
){
90 LOG_DEBUG("Data read (%d bits): 0x%04X",len
,*data_shifted_out_of_dr
);
92 LOG_DEBUG("Data read was discarded.");
96 static int dsp5680xx_irscan(struct target
* target
, uint32_t * data_to_shift_into_ir
, uint32_t * data_shifted_out_of_ir
, uint8_t ir_len
){
97 // -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- --
99 // - data_to_shift_into_ir: This is the data that will be shifted into the JTAG IR reg.
100 // - data_shifted_out_of_ir: The data that will be shifted out of the JTAG IR reg will stored here
101 // - len: Length of the data to be shifted to JTAG IR.
103 // -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- --
104 int retval
= ERROR_OK
;
105 if (NULL
== target
->tap
){
107 err_check(retval
,"Invalid tap");
109 if (ir_len
!= target
->tap
->ir_length
){
110 LOG_WARNING("%s: Invalid ir_len of core tap. If you are removing protection on flash then do not worry about this warninig.",__FUNCTION__
);
111 //return ERROR_FAIL;//TODO this was commented out to enable unlocking using the master tap. did not find a way to enable the master tap without using tcl.
113 //TODO what values of len are valid for jtag_add_plain_ir_scan?
114 //can i send as many bits as i want?
115 //is the casting necessary?
116 jtag_add_plain_ir_scan(ir_len
,(uint8_t *)data_to_shift_into_ir
,(uint8_t *)data_shifted_out_of_ir
, TAP_IDLE
);
118 retval
= dsp5680xx_execute_queue();
119 err_check_propagate(retval
);
124 static int dsp5680xx_read_core_reg(struct target
* target
, uint8_t reg_addr
, uint16_t * data_read
)
126 //TODO implement a general version of this which matches what openocd uses.
128 uint32_t dummy_data_to_shift_into_dr
;
129 retval
= eonce_instruction_exec(target
,reg_addr
,1,0,0,NULL
);
130 err_check_propagate(retval
);
131 retval
= dsp5680xx_drscan(target
,(uint8_t *)& dummy_data_to_shift_into_dr
,(uint8_t *) data_read
, 8);
132 err_check_propagate(retval
);
133 LOG_DEBUG("Reg. data: 0x%02X.",*data_read
);
137 static int dsp5680xx_target_create(struct target
*target
, Jim_Interp
* interp
){
138 struct dsp5680xx_common
*dsp5680xx
= calloc(1, sizeof(struct dsp5680xx_common
));
139 target
->arch_info
= dsp5680xx
;
143 static int dsp5680xx_init_target(struct command_context
*cmd_ctx
, struct target
*target
){
144 context
.stored_pc
= 0;
146 LOG_DEBUG("target initiated!");
147 //TODO core tap must be enabled before running these commands, currently this is done in the .cfg tcl script.
151 static int dsp5680xx_arch_state(struct target
*target
){
152 LOG_USER("%s not implemented yet.",__FUNCTION__
);
156 int dsp5680xx_target_status(struct target
* target
, uint8_t * jtag_st
, uint16_t * eonce_st
){
157 return target
->state
;
160 static int dsp5680xx_assert_reset(struct target
*target
){
161 target
->state
= TARGET_RESET
;
165 static int dsp5680xx_deassert_reset(struct target
*target
){
166 target
->state
= TARGET_RUNNING
;
170 static int dsp5680xx_poll(struct target
*target
){
173 uint8_t eonce_status
;
175 retval
= dsp5680xx_jtag_status(target
,&jtag_status
);
176 err_check_propagate(retval
);
177 if (jtag_status
== JTAG_STATUS_DEBUG
)
178 if (target
->state
!= TARGET_HALTED
){
179 retval
= eonce_enter_debug_mode(target
,&read_tmp
);
180 err_check_propagate(retval
);
181 eonce_status
= (uint8_t) read_tmp
;
182 if((eonce_status
&EONCE_STAT_MASK
) != DSP5680XX_ONCE_OSCR_DEBUG_M
){
183 LOG_WARNING("%s: Failed to put EOnCE in debug mode. Is flash locked?...",__FUNCTION__
);
184 return ERROR_TARGET_FAILURE
;
186 target
->state
= TARGET_HALTED
;
190 if (jtag_status
== JTAG_STATUS_NORMAL
){
191 if(target
->state
== TARGET_RESET
){
192 retval
= dsp5680xx_halt(target
);
193 err_check_propagate(retval
);
194 retval
= eonce_exit_debug_mode(target
,&eonce_status
);
195 err_check_propagate(retval
);
196 if((eonce_status
&EONCE_STAT_MASK
) != DSP5680XX_ONCE_OSCR_NORMAL_M
){
197 LOG_WARNING("%s: JTAG running, but cannot make EOnCE run. Try resetting...",__FUNCTION__
);
198 return ERROR_TARGET_FAILURE
;
200 target
->state
= TARGET_RUNNING
;
204 if(target
->state
!= TARGET_RUNNING
){
205 retval
= eonce_read_status_reg(target
,&read_tmp
);
206 err_check_propagate(retval
);
207 eonce_status
= (uint8_t) read_tmp
;
208 if((eonce_status
&EONCE_STAT_MASK
) != DSP5680XX_ONCE_OSCR_NORMAL_M
){
209 LOG_WARNING("Inconsistent target status. Restart!");
210 return ERROR_TARGET_FAILURE
;
213 target
->state
= TARGET_RUNNING
;
216 if(jtag_status
== JTAG_STATUS_DEAD
){
217 LOG_ERROR("%s: Cannot communicate with JTAG. Check connection...",__FUNCTION__
);
218 target
->state
= TARGET_UNKNOWN
;
219 return ERROR_TARGET_FAILURE
;
221 if (target
->state
== TARGET_UNKNOWN
){
222 LOG_ERROR("%s: Target status invalid - communication failure",__FUNCTION__
);
223 return ERROR_TARGET_FAILURE
;
228 static int dsp5680xx_jtag_status(struct target
*target
, uint8_t * status
){
229 uint32_t read_from_ir
;
232 instr
= JTAG_INSTR_ENABLE_ONCE
;
233 retval
= dsp5680xx_irscan(target
,& instr
, & read_from_ir
,DSP5680XX_JTAG_CORE_TAP_IRLEN
);
234 err_check_propagate(retval
);
236 *status
= (uint8_t)read_from_ir
;
240 static int eonce_read_status_reg(struct target
* target
, uint16_t * data
){
242 retval
= dsp5680xx_read_core_reg(target
,DSP5680XX_ONCE_OSR
,data
);
243 err_check_propagate(retval
);
247 static int dsp5680xx_halt(struct target
*target
){
250 uint16_t eonce_status
;
251 if(target
->state
== TARGET_HALTED
){
252 LOG_USER("Target already halted.");
255 retval
= eonce_enter_debug_mode(target
,&eonce_status
);
256 err_check_propagate(retval
);
257 retval
= dsp5680xx_jtag_status(target
,&jtag_status
);
258 err_check_propagate(retval
);
259 retval
= eonce_pc_store(target
);
260 err_check_propagate(retval
);
261 //TODO is it useful to store the pc?
265 static int dsp5680xx_resume(struct target
*target
, int current
, uint32_t address
,int handle_breakpoints
, int debug_execution
){
266 if(target
->state
== TARGET_RUNNING
){
267 LOG_USER("Target already running.");
272 uint16_t eonce_status
;
274 // Verify that EOnCE is enabled (enable it if necessary)
275 uint16_t data_read_from_dr
= 0;
276 retval
= eonce_read_status_reg(target
,&data_read_from_dr
);
277 err_check_propagate(retval
);
278 if((data_read_from_dr
&DSP5680XX_ONCE_OSCR_DEBUG_M
) != DSP5680XX_ONCE_OSCR_DEBUG_M
){
279 retval
= eonce_enter_debug_mode(target
,NULL
);
280 err_check_propagate(retval
);
283 retval
= eonce_move_value_to_pc(target
,address
);
284 err_check_propagate(retval
);
289 retval
= eonce_exit_debug_mode(target
,(uint8_t *)&eonce_status
);
290 err_check_propagate(retval
);
291 retval
= dsp5680xx_jtag_status(target
,&jtag_status
);
292 err_check_propagate(retval
);
293 if((jtag_status
& 0xff) == JTAG_STATUS_NORMAL
){
298 retval
= ERROR_TARGET_FAILURE
;
299 err_check(retval
,"Failed to resume...");
301 target
->state
= TARGET_RUNNING
;
303 LOG_DEBUG("JTAG status: 0x%02X.",jtag_status
);
304 LOG_DEBUG("EOnCE status: 0x%02X.",eonce_status
);
308 static int jtag_data_read(struct target
* target
, uint32_t * data_read
, int num_bits
){
309 uint32_t bogus_instr
;
310 int retval
= dsp5680xx_drscan(target
,(uint8_t *) & bogus_instr
,(uint8_t *) data_read
,num_bits
);
311 LOG_DEBUG("Data read (%d bits): 0x%04X",num_bits
,*data_read
);//TODO remove this or move to jtagio?
315 #define jtag_data_read8(target,data_read) jtag_data_read(target,data_read,8)
316 #define jtag_data_read16(target,data_read) jtag_data_read(target,data_read,16)
317 #define jtag_data_read32(target,data_read) jtag_data_read(target,data_read,32)
319 static int jtag_data_write(struct target
* target
, uint32_t instr
,int num_bits
, uint32_t * data_read
){
321 uint32_t data_read_dummy
;
322 retval
= dsp5680xx_drscan(target
,(uint8_t *) & instr
,(uint8_t *) & data_read_dummy
,num_bits
);
323 err_check_propagate(retval
);
324 if(data_read
!= NULL
)
325 *data_read
= data_read_dummy
;
329 #define jtag_data_write8(target,instr,data_read) jtag_data_write(target,instr,8,data_read)
330 #define jtag_data_write16(target,instr,data_read) jtag_data_write(target,instr,16,data_read)
331 #define jtag_data_write24(target,instr,data_read) jtag_data_write(target,instr,24,data_read)
332 #define jtag_data_write32(target,instr,data_read) jtag_data_write(target,instr,32,data_read)
334 static int eonce_enter_debug_mode(struct target
* target
, uint16_t * eonce_status
){
336 uint32_t instr
= JTAG_INSTR_DEBUG_REQUEST
;
337 uint32_t ir_out
;//not used, just to make jtag happy.
339 retval
= dsp5680xx_irscan(target
,& instr
,& ir_out
,DSP5680XX_JTAG_CORE_TAP_IRLEN
);
340 err_check_propagate(retval
);
342 // Enable EOnCE module
343 instr
= JTAG_INSTR_ENABLE_ONCE
;
344 //Two rounds of jtag 0x6 (enable eonce) to enable EOnCE.
345 retval
= dsp5680xx_irscan(target
, & instr
, & ir_out
,DSP5680XX_JTAG_CORE_TAP_IRLEN
);
346 err_check_propagate(retval
);
347 retval
= dsp5680xx_irscan(target
, & instr
, & ir_out
,DSP5680XX_JTAG_CORE_TAP_IRLEN
);
348 err_check_propagate(retval
);
349 // Verify that debug mode is enabled
350 uint16_t data_read_from_dr
;
351 retval
= eonce_read_status_reg(target
,&data_read_from_dr
);
352 err_check_propagate(retval
);
353 if((data_read_from_dr
&0x30) == 0x30){
354 LOG_DEBUG("EOnCE successfully entered debug mode.");
355 target
->state
= TARGET_HALTED
;
358 retval
= ERROR_TARGET_FAILURE
;
359 err_check(retval
,"Failed to set EOnCE module to debug mode.");
361 if(eonce_status
!=NULL
)
362 *eonce_status
= data_read_from_dr
;
366 static int eonce_instruction_exec(struct target
* target
, uint8_t instr
, uint8_t rw
, uint8_t go
, uint8_t ex
,uint8_t * eonce_status
){
369 uint8_t instr_with_flags
= instr
|(rw
<<7)|(go
<<6)|(ex
<<5);
370 retval
= jtag_data_write(target
,instr_with_flags
,8,&dr_out_tmp
);
371 err_check_propagate(retval
);
372 if(eonce_status
!= NULL
)
373 *eonce_status
= (uint8_t) dr_out_tmp
;
377 /* Executes DSP instruction */
378 /* wrappers for parameter conversion between eonce_execute_instruction and eonce_execute_instructionX */
379 #define eonce_execute_instruction_1(target,opcode1,opcode2,opcode3) eonce_execute_instruction1(target,opcode1)
380 #define eonce_execute_instruction_2(target,opcode1,opcode2,opcode3) eonce_execute_instruction2(target,opcode1,opcode2)
381 #define eonce_execute_instruction_3(target,opcode1,opcode2,opcode3) eonce_execute_instruction3(target,opcode1,opcode2,opcode3)
382 /* the macro itself */
383 #define eonce_execute_instruction(target,words,opcode1,opcode2,opcode3) eonce_execute_instruction_##words(target,opcode1,opcode2,opcode3)
385 /* Executes one word DSP instruction */
386 static int eonce_execute_instruction1(struct target
* target
, uint16_t opcode
){
388 retval
= eonce_instruction_exec(target
,0x04,0,1,0,NULL
);
389 err_check_propagate(retval
);
390 retval
= jtag_data_write16(target
,opcode
,NULL
);
391 err_check_propagate(retval
);
395 /* Executes two word DSP instruction */
396 static int eonce_execute_instruction2(struct target
* target
,uint16_t opcode1
, uint16_t opcode2
){
398 retval
= eonce_instruction_exec(target
,0x04,0,0,0,NULL
);
399 err_check_propagate(retval
);
400 retval
= jtag_data_write16(target
,opcode1
,NULL
);
401 err_check_propagate(retval
);
402 retval
= eonce_instruction_exec(target
,0x04,0,1,0,NULL
);
403 err_check_propagate(retval
);
404 retval
= jtag_data_write16(target
,opcode2
,NULL
);
405 err_check_propagate(retval
);
409 /* Executes three word DSP instruction */
410 static int eonce_execute_instruction3(struct target
* target
, uint16_t opcode1
,uint16_t opcode2
,uint16_t opcode3
){
412 retval
= eonce_instruction_exec(target
,0x04,0,0,0,NULL
);
413 err_check_propagate(retval
);
414 retval
= jtag_data_write16(target
,opcode1
,NULL
);
415 err_check_propagate(retval
);
416 retval
= eonce_instruction_exec(target
,0x04,0,0,0,NULL
);
417 err_check_propagate(retval
);
418 retval
= jtag_data_write16(target
,opcode2
,NULL
);
419 err_check_propagate(retval
);
420 retval
= eonce_instruction_exec(target
,0x04,0,1,0,NULL
);
421 err_check_propagate(retval
);
422 retval
= jtag_data_write16(target
,opcode3
,NULL
);
423 err_check_propagate(retval
);
427 /* --------------- Real-time data exchange --------------- */
429 The EOnCE Transmit (OTX) and Receive (ORX) registers are data memory mapped, each with an upper and lower 16 bit word.
430 Transmit and receive directions are defined from the core’s perspective.
431 The core writes to the Transmit register and reads the Receive register, and the host through JTAG writes to the Receive register and reads the Transmit register.
432 Both registers have a combined data memory mapped OTXRXSR which provides indication when each may be accessed.
433 ref: eonce_rev.1.0_0208081.pdf@36
436 static int eonce_tx_upper_data(struct target
* target
, uint16_t data
, uint32_t * eonce_status_low
){
438 retval
= eonce_instruction_exec(target
,DSP5680XX_ONCE_ORX1
,0,0,0,NULL
);
439 err_check_propagate(retval
);
440 retval
= jtag_data_write16(target
,data
,eonce_status_low
);
441 err_check_propagate(retval
);
445 /* writes data into lower ORx register of the target */
446 #define eonce_tx_lower_data(target,data) eonce_instruction_exec(target,DSP5680XX_ONCE_ORX,0,0,0,NULL);\
447 jtag_data_write16(target,data)
452 * @param data_read: Returns the data read from the upper OTX register via JTAG.
453 * @return: Returns an error code (see error code documentation)
455 static int eonce_rx_upper_data(struct target
* target
, uint16_t * data_read
)
458 retval
= eonce_instruction_exec(target
,DSP5680XX_ONCE_OTX1
,1,0,0,NULL
);
459 err_check_propagate(retval
);
460 retval
= jtag_data_read16(target
,(uint32_t *)data_read
);
461 err_check_propagate(retval
);
468 * @param data_read: Returns the data read from the lower OTX register via JTAG.
469 * @return: Returns an error code (see error code documentation)
471 static int eonce_rx_lower_data(struct target
* target
,uint16_t * data_read
)
474 retval
= eonce_instruction_exec(target
,DSP5680XX_ONCE_OTX
,1,0,0,NULL
);
475 err_check_propagate(retval
);
476 retval
= jtag_data_read16(target
,(uint32_t *)data_read
);
477 err_check_propagate(retval
);
481 /* -- -- -- -- --- -- -- -- --- -- -- -- --- -- -- -- --- -- -- -- --- -- -*/
482 /* -- -- -- -- --- -- -- -Core Instructions- -- -- -- --- -- -- -- --- -- -*/
483 /* -- -- -- -- --- -- -- -- --- -- -- -- --- -- -- -- --- -- -- -- --- -- -*/
484 /* move.l #value,r0 */
485 #define eonce_move_long_to_r0(target,value) eonce_execute_instruction(target,3,0xe418,value&0xffff,value>>16)
487 /* move.l #value,n */
488 #define eonce_move_long_to_n(target,value) eonce_execute_instruction(target,3,0xe41e,value&0xffff,value>>16)
491 #define eonce_move_at_r0_to_y0(target) eonce_execute_instruction(target,1,0xF514,0,0)
494 #define eonce_move_at_r0_to_y1(target) eonce_execute_instruction(target,1,0xF714,0,0)
496 /* move.l x:(r0),y */
497 #define eonce_move_long_at_r0_y(target) eonce_execute_instruction(target,1,0xF734,0,0)
500 #define eonce_move_y0_at_r0(target) eonce_execute_instruction(target,1,0xd514,0,0)
502 /* bfclr #value,x:(r0) */
503 #define eonce_bfclr_at_r0(target,value) eonce_execute_instruction(target,2,0x8040,value,0)
506 #define eonce_move_value_to_y0(target,value) eonce_execute_instruction(target,2,0x8745,value,0)
508 /* move.w y0,x:(r0)+ */
509 #define eonce_move_y0_at_r0_inc(target) eonce_execute_instruction(target,1,0xd500,0,0)
511 /* move.w y0,p:(r0)+ */
512 #define eonce_move_y0_at_pr0_inc(target) eonce_execute_instruction(target,1,0x8560,0,0)
514 /* move.w p:(r0)+,y0 */
515 #define eonce_move_at_pr0_inc_to_y0(target) eonce_execute_instruction(target,1,0x8568,0,0)
517 /* move.w p:(r0)+,y1 */
518 #define eonce_move_at_pr0_inc_to_y1(target) eonce_execute_instruction(target,1,0x8768,0,0)
520 /* move.l #value,r2 */
521 #define eonce_move_long_to_r2(target,value) eonce_execute_instruction(target,3,0xe41A,value&0xffff,value>>16)
524 #define eonce_move_y0_at_r2(target) eonce_execute_instruction(target,1,0xd516,0,0)
526 /* move.w #<value>,x:(r2) */
527 #define eonce_move_value_at_r2(target,value) eonce_execute_instruction(target,2,0x8642,value,0)
529 /* move.w #<value>,x:(r0) */
530 #define eonce_move_value_at_r0(target,value) eonce_execute_instruction(target,2,0x8640,value,0)
532 /* move.w #<value>,x:(R2+<disp>) */
533 #define eonce_move_value_at_r2_disp(target,value,disp) eonce_execute_instruction(target,3,0x8646,value,disp)
535 /* move.w x:(r2),Y0 */
536 #define eonce_move_at_r2_to_y0(target) eonce_execute_instruction(target,1,0xF516,0,0)
538 /* move.w p:(r2)+,y0 */
539 #define eonce_move_at_pr2_inc_to_y0(target) eonce_execute_instruction(target,1,0x856A,0,0)
541 /* move.l #value,r3 */
542 #define eonce_move_long_to_r1(target,value) eonce_execute_instruction(target,3,0xE419,value&0xffff,value>>16)
544 /* move.l #value,r3 */
545 #define eonce_move_long_to_r3(target,value) eonce_execute_instruction(target,3,0xE41B,value&0xffff,value>>16)
547 /* move.w y0,p:(r3)+ */
548 #define eonce_move_y0_at_pr3_inc(target) eonce_execute_instruction(target,1,0x8563,0,0)
550 /* move.w y0,x:(r3) */
551 #define eonce_move_y0_at_r3(target) eonce_execute_instruction(target,1,0xD503,0,0)
554 #define eonce_move_pc_to_r4(target) eonce_execute_instruction(target,1,0xE716,0,0)
557 #define eonce_move_r4_to_y(target) eonce_execute_instruction(target,1,0xe764,0,0)
559 /* move.w p:(r0)+,y0 */
560 #define eonce_move_at_pr0_inc_to_y0(target) eonce_execute_instruction(target,1,0x8568,0,0)
562 /* move.w x:(r0)+,y0 */
563 #define eonce_move_at_r0_inc_to_y0(target) eonce_execute_instruction(target,1,0xf500,0,0)
566 #define eonce_move_at_r0_y0(target) eonce_execute_instruction(target,1,0xF514,0,0)
569 #define eonce_nop(target) eonce_execute_instruction(target,1,0xe700,0,0)
571 /* move.w x:(R2+<disp>),Y0 */
572 #define eonce_move_at_r2_disp_to_y0(target,disp) eonce_execute_instruction(target,2,0xF542,disp,0)
574 /* move.w y1,x:(r2) */
575 #define eonce_move_y1_at_r2(target) eonce_execute_instruction(target,1,0xd716,0,0)
577 /* move.w y1,x:(r0) */
578 #define eonce_move_y1_at_r0(target) eonce_execute_instruction(target,1,0xd714,0,0)
580 /* move.bp y0,x:(r0)+ */
581 #define eonce_move_byte_y0_at_r0(target) eonce_execute_instruction(target,1,0xd5a0,0,0)
583 /* move.w y1,p:(r0)+ */
584 #define eonce_move_y1_at_pr0_inc(target) eonce_execute_instruction(target,1,0x8760,0,0)
586 /* move.w y1,x:(r0)+ */
587 #define eonce_move_y1_at_r0_inc(target) eonce_execute_instruction(target,1,0xD700,0,0)
589 /* move.l #value,y */
590 #define eonce_move_long_to_y(target,value) eonce_execute_instruction(target,3,0xe417,value&0xffff,value>>16)
592 static int eonce_move_value_to_pc(struct target
* target
, uint32_t value
)
594 if (!(target
->state
== TARGET_HALTED
)){
595 LOG_ERROR("Target must be halted to move PC. Target state = %d.",target
->state
);
596 return ERROR_TARGET_NOT_HALTED
;
599 retval
= eonce_execute_instruction(target
,3,0xE71E,value
&0xffff,value
>>16);
600 err_check_propagate(retval
);
604 static int eonce_load_TX_RX_to_r0(struct target
* target
)
607 retval
= eonce_move_long_to_r0(target
,((MC568013_EONCE_TX_RX_ADDR
)+(MC568013_EONCE_OBASE_ADDR
<<16)));
611 static int eonce_load_TX_RX_high_to_r0(struct target
* target
)
614 retval
= eonce_move_long_to_r0(target
,((MC568013_EONCE_TX1_RX1_HIGH_ADDR
)+(MC568013_EONCE_OBASE_ADDR
<<16)));
618 static int eonce_pc_store(struct target
* target
){
621 retval
= eonce_move_pc_to_r4(target
);
622 err_check_propagate(retval
);
623 retval
= eonce_move_r4_to_y(target
);
624 err_check_propagate(retval
);
625 retval
= eonce_load_TX_RX_to_r0(target
);
626 err_check_propagate(retval
);
627 retval
= eonce_move_y0_at_r0(target
);
628 err_check_propagate(retval
);
629 retval
= eonce_rx_lower_data(target
,(uint16_t *)&tmp
);
630 err_check_propagate(retval
);
631 LOG_USER("PC value: 0x%06X\n",tmp
);
632 context
.stored_pc
= (uint32_t)tmp
;
636 static int dsp5680xx_convert_address(uint32_t * address
, int * pmem
){
637 // Distinguish data memory (x:) from program memory (p:) by the address.
638 // Addresses over S_FILE_DATA_OFFSET are considered (x:) memory.
639 if(*address
>= S_FILE_DATA_OFFSET
){
641 if(((*address
)&0xff0000)!=0xff0000)
642 *address
-= S_FILE_DATA_OFFSET
;
647 static int dsp5680xx_read_16_single(struct target
* target
, uint32_t address
, uint16_t * data_read
, int r_pmem
){
648 //TODO add error control!
650 retval
= eonce_move_long_to_r0(target
,address
);
651 err_check_propagate(retval
);
653 retval
= eonce_move_at_pr0_inc_to_y0(target
);
655 retval
= eonce_move_at_r0_to_y0(target
);
656 err_check_propagate(retval
);
657 retval
= eonce_load_TX_RX_to_r0(target
);
658 err_check_propagate(retval
);
659 retval
= eonce_move_y0_at_r0(target
);
660 err_check_propagate(retval
);
661 // at this point the data i want is at the reg eonce can read
662 retval
= eonce_rx_lower_data(target
,data_read
);
663 err_check_propagate(retval
);
664 LOG_DEBUG("%s: Data read from 0x%06X: 0x%04X",__FUNCTION__
, address
,*data_read
);
668 static int dsp5680xx_read_32_single(struct target
* target
, uint32_t address
, uint32_t * data_read
, int r_pmem
){
670 address
= (address
& 0xFFFFFE);
671 // Get data to an intermediate register
672 retval
= eonce_move_long_to_r0(target
,address
);
673 err_check_propagate(retval
);
675 retval
= eonce_move_at_pr0_inc_to_y0(target
);
676 err_check_propagate(retval
);
677 retval
= eonce_move_at_pr0_inc_to_y1(target
);
678 err_check_propagate(retval
);
680 retval
= eonce_move_at_r0_inc_to_y0(target
);
681 err_check_propagate(retval
);
682 retval
= eonce_move_at_r0_to_y1(target
);
683 err_check_propagate(retval
);
685 // Get lower part of data to TX/RX
686 retval
= eonce_load_TX_RX_to_r0(target
);
687 err_check_propagate(retval
);
688 retval
= eonce_move_y0_at_r0_inc(target
); // This also load TX/RX high to r0
689 err_check_propagate(retval
);
690 // Get upper part of data to TX/RX
691 retval
= eonce_move_y1_at_r0(target
);
692 err_check_propagate(retval
);
693 // at this point the data i want is at the reg eonce can read
694 retval
= eonce_rx_lower_data(target
,(uint16_t * )data_read
);
695 err_check_propagate(retval
);
697 retval
= eonce_rx_upper_data(target
,&tmp
);
698 err_check_propagate(retval
);
699 *data_read
= ((tmp
<<16) | (*data_read
));//This enables opencd crc to succeed, even though it's very slow.
703 static int dsp5680xx_read(struct target
* target
, uint32_t address
, unsigned size
, unsigned count
, uint8_t * buffer
){
704 if(target
->state
!= TARGET_HALTED
){
705 LOG_USER("Target must be halted.");
708 uint32_t * buff32
= (uint32_t *) buffer
;
709 uint16_t * buff16
= (uint16_t *) buffer
;
710 int retval
= ERROR_OK
;
714 retval
= dsp5680xx_convert_address(&address
, &pmem
);
715 err_check_propagate(retval
);
717 for (unsigned i
=0; i
<count
; i
++){
721 retval
= dsp5680xx_read_16_single(target
, address
+ i
/2, &tmp_wrd
, pmem
);
722 buffer
[i
] = (uint8_t) (tmp_wrd
>>8);
723 buffer
[i
+1] = (uint8_t) (tmp_wrd
&0xff);
727 retval
= dsp5680xx_read_16_single(target
, address
+ i
, buff16
+ i
, pmem
);
730 retval
= dsp5680xx_read_32_single(target
, address
+ 2*i
, buff32
+ i
, pmem
);
733 LOG_USER("%s: Invalid read size.",__FUNCTION__
);
736 err_check_propagate(retval
);
742 static int dsp5680xx_write_16_single(struct target
*target
, uint32_t address
, uint16_t data
, uint8_t w_pmem
){
744 retval
= eonce_move_long_to_r0(target
,address
);
745 err_check_propagate(retval
);
747 retval
= eonce_move_value_to_y0(target
,data
);
748 err_check_propagate(retval
);
749 retval
= eonce_move_y0_at_pr0_inc(target
);
750 err_check_propagate(retval
);
752 retval
= eonce_move_value_at_r0(target
,data
);
753 err_check_propagate(retval
);
759 static int dsp5680xx_write_32_single(struct target
*target
, uint32_t address
, uint32_t data
, int w_pmem
){
761 retval
= eonce_move_long_to_r0(target
,address
);
762 err_check_propagate(retval
);
763 retval
= eonce_move_long_to_y(target
,data
);
764 err_check_propagate(retval
);
766 retval
= eonce_move_y0_at_pr0_inc(target
);
768 retval
= eonce_move_y0_at_r0_inc(target
);
769 err_check_propagate(retval
);
771 retval
= eonce_move_y1_at_pr0_inc(target
);
773 retval
= eonce_move_y1_at_r0_inc(target
);
774 err_check_propagate(retval
);
778 static int dsp5680xx_write_8(struct target
* target
, uint32_t address
, uint32_t count
, uint8_t * data
, int pmem
){
779 if(target
->state
!= TARGET_HALTED
){
780 LOG_ERROR("%s: Target must be halted.",__FUNCTION__
);
784 uint16_t * data_w
= (uint16_t *)data
;
787 int counter
= FLUSH_COUNT_READ_WRITE
;
788 for(iter
= 0; iter
<count
/2; iter
++){
791 counter
= FLUSH_COUNT_READ_WRITE
;
793 retval
= dsp5680xx_write_16_single(target
,address
+iter
,data_w
[iter
], pmem
);
794 if(retval
!= ERROR_OK
){
795 LOG_ERROR("%s: Could not write to p:0x%04X",__FUNCTION__
,address
);
803 // Only one byte left, let's not overwrite the other byte (mem is 16bit)
804 // Need to retrieve the part we do not want to overwrite.
806 if((count
==1)||(count
%2)){
807 retval
= dsp5680xx_read(target
,address
+iter
,1,1,(uint8_t *)&data_old
);
808 err_check_propagate(retval
);
810 data_old
=(((data_old
&0xff)<<8)|data
[0]);// preserve upper byte
812 data_old
=(((data_old
&0xff)<<8)|data
[2*iter
+1]);
813 retval
= dsp5680xx_write_16_single(target
,address
+iter
,data_old
, pmem
);
814 err_check_propagate(retval
);
819 static int dsp5680xx_write_16(struct target
* target
, uint32_t address
, uint32_t count
, uint16_t * data
, int pmem
){
820 int retval
= ERROR_OK
;
821 if(target
->state
!= TARGET_HALTED
){
822 retval
= ERROR_TARGET_NOT_HALTED
;
823 err_check(retval
,"Target must be halted.");
826 int counter
= FLUSH_COUNT_READ_WRITE
;
828 for(iter
= 0; iter
<count
; iter
++){
831 counter
= FLUSH_COUNT_READ_WRITE
;
833 retval
= dsp5680xx_write_16_single(target
,address
+iter
,data
[iter
], pmem
);
834 if(retval
!= ERROR_OK
){
835 LOG_ERROR("%s: Could not write to p:0x%04X",__FUNCTION__
,address
);
845 static int dsp5680xx_write_32(struct target
* target
, uint32_t address
, uint32_t count
, uint32_t * data
, int pmem
){
846 int retval
= ERROR_OK
;
847 if(target
->state
!= TARGET_HALTED
){
848 retval
= ERROR_TARGET_NOT_HALTED
;
849 err_check(retval
,"Target must be halted.");
852 int counter
= FLUSH_COUNT_READ_WRITE
;
854 for(iter
= 0; iter
<count
; iter
++){
857 counter
= FLUSH_COUNT_READ_WRITE
;
859 retval
= dsp5680xx_write_32_single(target
,address
+(iter
<<1),data
[iter
], pmem
);
860 if(retval
!= ERROR_OK
){
861 LOG_ERROR("%s: Could not write to p:0x%04X",__FUNCTION__
,address
);
872 static int dsp5680xx_write(struct target
*target
, uint32_t address
, uint32_t size
, uint32_t count
, const uint8_t * buffer
){
873 //TODO Cannot write 32bit to odd address, will write 0x12345678 as 0x5678 0x0012
874 if(target
->state
!= TARGET_HALTED
){
875 LOG_USER("Target must be halted.");
880 retval
= dsp5680xx_convert_address(&address
, &p_mem
);
881 err_check_propagate(retval
);
885 retval
= dsp5680xx_write_8(target
, address
, count
,(uint8_t *) buffer
, p_mem
);
888 retval
= dsp5680xx_write_16(target
, address
, count
, (uint16_t *)buffer
, p_mem
);
891 retval
= dsp5680xx_write_32(target
, address
, count
, (uint32_t *)buffer
, p_mem
);
894 retval
= ERROR_TARGET_DATA_ABORT
;
895 err_check(retval
,"Invalid data size.")
901 static int dsp5680xx_bulk_write_memory(struct target
* target
,uint32_t address
, uint32_t aligned
, const uint8_t * buffer
){
902 LOG_ERROR("Not implemented yet.");
906 // Writes to pram at address
907 // r3 holds the destination address-> p:(r3)
908 // r2 hold 0xf151 to flash a led (probably cannot see it due to high freq.)
909 // r0 holds TX/RX address.
910 //0x00000073 0x8A44FFFE017B brclr #1,X:(R0-2),*-2
911 //0x00000076 0xE700 nop
912 //0x00000077 0xF514 move.w X:(R0),Y0
913 //0x00000078 0xE700 nop
914 //0x00000079 0x8563 move.w Y0,P:(R3)+
915 //0x0000007A 0x84420003 bfchg #3,X:(R2)
916 //0x0000007C 0xA976 bra *-9
917 uint16_t pgm_write_pram
[] = {0x8A44,0xFFFE,0x017D,0xE700,0xF514,0xE700,0x8563,0x8442,0x0003,0xA976};
918 uint16_t pgm_write_pram_length
= 10;
920 static int dsp5680xx_write_buffer(struct target
* target
, uint32_t address
, uint32_t size
, const uint8_t * buffer
){
921 // -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- --
922 // this solution works, but it's slow. it flushes USB all the time.
923 return dsp5680xx_write(target
, address
, 1, size
, buffer
);
924 // -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- --
927 static int dsp5680xx_read_buffer(struct target
* target
, uint32_t address
, uint32_t size
, uint8_t * buffer
){
928 if(target
->state
!= TARGET_HALTED
){
929 LOG_USER("Target must be halted.");
933 int retval
= ERROR_OK
;
937 retval
= dsp5680xx_convert_address(&address
, &pmem
);
938 err_check_propagate(retval
);
940 for (unsigned i
=0; i
<size
; i
++)
942 retval
= dsp5680xx_read_16_single(target
, address
+ i
/2, &tmp_wrd
, pmem
);
943 err_check_propagate(retval
);
944 //TODO find a better solution. endiannes differs from normal read, otherwise the openocd crc would do weird stuff.
945 buffer
[i
+1] = (uint8_t) (tmp_wrd
>>8);
946 buffer
[i
] = (uint8_t) (tmp_wrd
&0xff);
951 static int dsp5680xx_checksum_memory(struct target
* target
, uint32_t address
, uint32_t size
, uint32_t * checksum
){
953 //This will make openocd do the work, but it will fail because of the word/byte addressing issues.
955 struct working_area
* crc_algorithm
;
956 retval
= target_alloc_working_area(target
, 20, &crc_algorithm
);
957 if(retval
!= ERROR_OK
)
958 return ERROR_TARGET_RESOURCE_NOT_AVAILABLE
;
959 retval
= target_free_working_area(target
, crc_algorithm
);
963 // Data signature algorithm used by the core FM (flash module)
964 static int perl_crc(uint16_t * buff16
,uint32_t word_count
){
965 uint16_t checksum
= 0xffff;
966 uint16_t data
,fbmisr
;
968 for(i
=0;i
<word_count
;i
++){
970 fbmisr
= (checksum
& 2)>>1 ^ (checksum
& 4)>>2 ^ (checksum
& 16)>>4 ^ (checksum
& 0x8000)>>15;
971 checksum
= (data
^ ((checksum
<< 1) | fbmisr
));
974 for(;!(i
&0x80000000);i
--){
976 fbmisr
= (checksum
& 2)>>1 ^ (checksum
& 4)>>2 ^ (checksum
& 16)>>4 ^ (checksum
& 0x8000)>>15;
977 checksum
= (data
^ ((checksum
<< 1) | fbmisr
));
982 int dsp5680xx_f_SIM_reset(struct target
* target
){
983 int retval
= ERROR_OK
;
984 uint16_t sim_cmd
= SIM_CMD_RESET
;
986 if(strcmp(target
->tap
->chip
,"dsp568013")==0){
987 sim_addr
= MC568013_SIM_BASE_ADDR
+S_FILE_DATA_OFFSET
;
988 retval
= dsp5680xx_write(target
,sim_addr
,1,2,(const uint8_t *)&sim_cmd
);
989 err_check_propagate(retval
);
995 static int dsp5680xx_soft_reset_halt(struct target
*target
){
996 //TODO is this what this function is expected to do...?
998 retval
= dsp5680xx_halt(target
);
999 err_check_propagate(retval
);
1000 retval
= dsp5680xx_f_SIM_reset(target
);
1001 err_check_propagate(retval
);
1005 int dsp5680xx_f_protect_check(struct target
* target
, uint16_t * protected) {
1008 if (dsp5680xx_target_status(target
,NULL
,NULL
) != TARGET_HALTED
){
1009 retval
= dsp5680xx_halt(target
);
1010 err_check_propagate(retval
);
1012 if(protected == NULL
){
1013 err_check(ERROR_FAIL
,"NULL pointer not valid.");
1015 retval
= dsp5680xx_read_16_single(target
,HFM_BASE_ADDR
|HFM_PROT
,&aux
,0);
1016 err_check_propagate(retval
);
1021 static int dsp5680xx_f_execute_command(struct target
* target
, uint16_t command
, uint32_t address
, uint32_t data
, uint16_t * hfm_ustat
, int pmem
){
1023 retval
= eonce_load_TX_RX_high_to_r0(target
);
1024 err_check_propagate(retval
);
1025 retval
= eonce_move_long_to_r2(target
,HFM_BASE_ADDR
);
1026 err_check_propagate(retval
);
1030 retval
= eonce_move_at_r2_disp_to_y0(target
,HFM_USTAT
); // read HMF_USTAT
1031 err_check_propagate(retval
);
1032 retval
= eonce_move_y0_at_r0(target
);
1033 err_check_propagate(retval
);
1034 retval
= eonce_rx_upper_data(target
,&i
);
1035 err_check_propagate(retval
);
1036 if((watchdog
--)==1){
1037 retval
= ERROR_TARGET_FAILURE
;
1038 err_check(retval
,"FM execute command failed.");
1040 }while (!(i
&0x40)); // wait until current command is complete
1041 retval
= eonce_move_value_at_r2_disp(target
,0x00,HFM_CNFG
); // write to HFM_CNFG (lock=0, select bank) -- flash_desc.bank&0x03,0x01 == 0x00,0x01 ???
1042 err_check_propagate(retval
);
1043 retval
= eonce_move_value_at_r2_disp(target
,0x04,HFM_USTAT
); // write to HMF_USTAT, clear PVIOL, ACCERR & BLANK bits
1044 err_check_propagate(retval
);
1045 retval
= eonce_move_value_at_r2_disp(target
,0x10,HFM_USTAT
); // clear only one bit at a time
1046 err_check_propagate(retval
);
1047 retval
= eonce_move_value_at_r2_disp(target
,0x20,HFM_USTAT
);
1048 err_check_propagate(retval
);
1049 retval
= eonce_move_value_at_r2_disp(target
,0x00,HFM_PROT
); // write to HMF_PROT, clear protection
1050 err_check_propagate(retval
);
1051 retval
= eonce_move_value_at_r2_disp(target
,0x00,HFM_PROTB
); // write to HMF_PROTB, clear protection
1052 err_check_propagate(retval
);
1053 retval
= eonce_move_value_to_y0(target
,data
);
1054 err_check_propagate(retval
);
1055 retval
= eonce_move_long_to_r3(target
,address
); // write to the flash block
1056 err_check_propagate(retval
);
1058 retval
= eonce_move_y0_at_pr3_inc(target
);
1059 err_check_propagate(retval
);
1061 retval
= eonce_move_y0_at_r3(target
);
1062 err_check_propagate(retval
);
1064 retval
= eonce_move_value_at_r2_disp(target
,command
,HFM_CMD
); // write command to the HFM_CMD reg
1065 err_check_propagate(retval
);
1066 retval
= eonce_move_value_at_r2_disp(target
,0x80,HFM_USTAT
); // start the command
1067 err_check_propagate(retval
);
1070 retval
= eonce_move_at_r2_disp_to_y0(target
,HFM_USTAT
); // read HMF_USTAT
1071 err_check_propagate(retval
);
1072 retval
= eonce_move_y0_at_r0(target
);
1073 err_check_propagate(retval
);
1074 retval
= eonce_rx_upper_data(target
,&i
);
1075 err_check_propagate(retval
);
1076 if((watchdog
--)==1){
1077 retval
= ERROR_TARGET_FAILURE
;
1078 err_check(retval
,"FM execution did not finish.");
1080 }while (!(i
&0x40)); // wait until the command is complete
1085 static int eonce_set_hfmdiv(struct target
* target
){
1088 retval
= eonce_move_long_to_r2(target
,HFM_BASE_ADDR
);
1089 err_check_propagate(retval
);
1090 retval
= eonce_load_TX_RX_high_to_r0(target
);
1091 err_check_propagate(retval
);
1092 retval
= eonce_move_at_r2_to_y0(target
);// read HFM_CLKD
1093 err_check_propagate(retval
);
1094 retval
= eonce_move_y0_at_r0(target
);
1095 err_check_propagate(retval
);
1096 retval
= eonce_rx_upper_data(target
,&i
);
1097 err_check_propagate(retval
);
1098 unsigned int hfm_at_wrong_value
= 0;
1099 if ((i
&0x7f)!=HFM_CLK_DEFAULT
) {
1100 LOG_DEBUG("HFM CLK divisor contained incorrect value (0x%02X).",i
&0x7f);
1101 hfm_at_wrong_value
= 1;
1103 LOG_DEBUG("HFM CLK divisor was already set to correct value (0x%02X).",i
&0x7f);
1106 retval
= eonce_move_value_at_r2(target
,HFM_CLK_DEFAULT
); // write HFM_CLKD
1107 err_check_propagate(retval
);
1108 retval
= eonce_move_at_r2_to_y0(target
); // verify HFM_CLKD
1109 err_check_propagate(retval
);
1110 retval
= eonce_move_y0_at_r0(target
);
1111 err_check_propagate(retval
);
1112 retval
= eonce_rx_upper_data(target
,&i
);
1113 err_check_propagate(retval
);
1114 if (i
!=(0x80|(HFM_CLK_DEFAULT
&0x7f))) {
1115 retval
= ERROR_TARGET_FAILURE
;
1116 err_check(retval
,"Unable to set HFM CLK divisor.");
1118 if(hfm_at_wrong_value
)
1119 LOG_DEBUG("HFM CLK divisor set to 0x%02x.",i
&0x7f);
1123 static int dsp5680xx_f_signature(struct target
* target
, uint32_t address
, uint32_t words
, uint16_t * signature
){
1126 if (dsp5680xx_target_status(target
,NULL
,NULL
) != TARGET_HALTED
){
1127 retval
= eonce_enter_debug_mode(target
,NULL
);
1128 err_check_propagate(retval
);
1130 retval
= dsp5680xx_f_execute_command(target
,HFM_CALCULATE_DATA_SIGNATURE
,address
,words
,&hfm_ustat
,1);
1131 err_check_propagate(retval
);
1132 if (hfm_ustat
&HFM_USTAT_MASK_PVIOL_ACCER
){
1133 retval
= ERROR_TARGET_FAILURE
;
1134 err_check(retval
,"HFM exec error:pviol and/or accer bits set.");
1136 retval
= dsp5680xx_read_16_single(target
, HFM_BASE_ADDR
|HFM_DATA
, signature
, 0);
1140 int dsp5680xx_f_erase_check(struct target
* target
, uint8_t * erased
,uint32_t sector
){
1143 if (dsp5680xx_target_status(target
,NULL
,NULL
) != TARGET_HALTED
){
1144 retval
= dsp5680xx_halt(target
);
1145 err_check_propagate(retval
);
1147 // Check if chip is already erased.
1148 retval
= dsp5680xx_f_execute_command(target
,HFM_ERASE_VERIFY
,HFM_FLASH_BASE_ADDR
+sector
*HFM_SECTOR_SIZE
/2,0,&hfm_ustat
,1); // blank check
1149 err_check_propagate(retval
);
1150 if (hfm_ustat
&HFM_USTAT_MASK_PVIOL_ACCER
){
1151 retval
= ERROR_TARGET_FAILURE
;
1152 err_check(retval
,"pviol and/or accer bits set. EraseVerify HFM command execution error");;
1155 *erased
= (uint8_t)(hfm_ustat
&HFM_USTAT_MASK_BLANK
);
1159 static int erase_sector(struct target
* target
, int sector
, uint16_t * hfm_ustat
){
1161 retval
= dsp5680xx_f_execute_command(target
,HFM_PAGE_ERASE
,HFM_FLASH_BASE_ADDR
+sector
*HFM_SECTOR_SIZE
/2,0,hfm_ustat
,1);
1162 err_check_propagate(retval
);
1166 static int mass_erase(struct target
* target
, uint16_t * hfm_ustat
){
1168 retval
= dsp5680xx_f_execute_command(target
,HFM_MASS_ERASE
,0,0,hfm_ustat
,1);
1172 int dsp5680xx_f_erase(struct target
* target
, int first
, int last
){
1174 if (dsp5680xx_target_status(target
,NULL
,NULL
) != TARGET_HALTED
){
1175 retval
= dsp5680xx_halt(target
);
1176 err_check_propagate(retval
);
1178 // -- -- -- -- -- -- -- -- -- -- -- -- -- -- --
1180 // -- -- -- -- -- -- -- -- -- -- -- -- -- -- --
1181 retval
= dsp5680xx_f_SIM_reset(target
);
1182 err_check_propagate(retval
);
1183 // -- -- -- -- -- -- -- -- -- -- -- -- -- -- --
1185 // -- -- -- -- -- -- -- -- -- -- -- -- -- -- --
1186 retval
= eonce_set_hfmdiv(target
);
1187 err_check_propagate(retval
);
1190 int do_mass_erase
= ((!(first
|last
)) || ((first
==0)&&(last
== (HFM_SECTOR_COUNT
-1))));
1193 retval
= mass_erase(target
,&hfm_ustat
);
1194 err_check_propagate(retval
);
1195 last
= HFM_SECTOR_COUNT
-1;
1197 for(int i
= first
;i
<=last
;i
++){
1198 retval
= erase_sector(target
,i
,&hfm_ustat
);
1199 err_check_propagate(retval
);
1205 // Algorithm for programming normal p: flash
1206 // Follow state machine from "56F801x Peripheral Reference Manual"@163.
1207 // Registers to set up before calling:
1208 // r0: TX/RX high address.
1209 // r2: FM module base address.
1210 // r3: Destination address in flash.
1212 // hfm_wait: // wait for command to finish
1213 // brclr #0x40,x:(r2+0x13),hfm_wait
1214 // rx_check: // wait for input buffer full
1215 // brclr #0x01,x:(r0-2),rx_check
1216 // move.w x:(r0),y0 // read from Rx buffer
1217 // move.w y0,p:(r3)+
1218 // move.w #0x20,x:(r2+0x14) // write PGM command
1219 // move.w #0x80,x:(r2+0x13) // start the command
1220 // brclr #0x20,X:(R2+0x13),accerr_check // protection violation check
1221 // bfset #0x20,X:(R2+0x13) // clear pviol
1224 // brclr #0x10,X:(R2+0x13),hfm_wait // access error check
1225 // bfset #0x10,X:(R2+0x13) // clear accerr
1226 // bra hfm_wait // loop
1227 //0x00000073 0x8A460013407D brclr #0x40,X:(R2+0x13),*+0
1228 //0x00000076 0xE700 nop
1229 //0x00000077 0xE700 nop
1230 //0x00000078 0x8A44FFFE017B brclr #1,X:(R0-2),*-2
1231 //0x0000007B 0xE700 nop
1232 //0x0000007C 0xF514 move.w X:(R0),Y0
1233 //0x0000007D 0x8563 move.w Y0,P:(R3)+
1234 //0x0000007E 0x864600200014 move.w #0x20,X:(R2+0x14)
1235 //0x00000081 0x864600800013 move.w #0x80,X:(R2+0x13)
1236 //0x00000084 0x8A4600132004 brclr #0x20,X:(R2+0x13),*+7
1237 //0x00000087 0x824600130020 bfset #0x20,X:(R2+0x13)
1238 //0x0000008A 0xA968 bra *-23
1239 //0x0000008B 0x8A4600131065 brclr #0x10,X:(R2+0x13),*-24
1240 //0x0000008E 0x824600130010 bfset #0x10,X:(R2+0x13)
1241 //0x00000091 0xA961 bra *-30
1242 const uint16_t pgm_write_pflash
[] = {0x8A46,0x0013,0x407D,0xE700,0xE700,0x8A44,0xFFFE,0x017B,0xE700,0xF514,0x8563,0x8646,0x0020,0x0014,0x8646,0x0080,0x0013,0x8A46,0x0013,0x2004,0x8246,0x0013,0x0020,0xA968,0x8A46,0x0013,0x1065,0x8246,0x0013,0x0010,0xA961};
1243 const uint32_t pgm_write_pflash_length
= 31;
1245 int dsp5680xx_f_wr(struct target
* target
, uint8_t *buffer
, uint32_t address
, uint32_t count
){
1246 int retval
= ERROR_OK
;
1247 uint16_t* buff16
= (uint16_t *) buffer
;
1248 if (dsp5680xx_target_status(target
,NULL
,NULL
) != TARGET_HALTED
){
1249 retval
= dsp5680xx_halt(target
);
1250 err_check_propagate(retval
);
1252 // -- -- -- -- -- -- -- -- -- -- -- -- -- -- --
1253 // Download the pgm that flashes.
1254 // -- -- -- -- -- -- -- -- -- -- -- -- -- -- --
1255 uint32_t my_favourite_ram_address
= 0x8700; // This seems to be a safe address. This one is the one used by codewarrior in 56801x_flash.cfg
1256 retval
= dsp5680xx_write(target
, my_favourite_ram_address
, 1, pgm_write_pflash_length
*2,(uint8_t *) pgm_write_pflash
);
1257 err_check_propagate(retval
);
1258 retval
= dsp5680xx_execute_queue();
1259 err_check_propagate(retval
);
1260 // -- -- -- -- -- -- -- -- -- -- -- -- -- -- --
1262 // -- -- -- -- -- -- -- -- -- -- -- -- -- -- --
1263 retval
= eonce_set_hfmdiv(target
);
1264 err_check_propagate(retval
);
1265 // -- -- -- -- -- -- -- -- -- -- -- -- -- -- --
1266 // Setup registers needed by pgm_write_pflash
1267 // -- -- -- -- -- -- -- -- -- -- -- -- -- -- --
1268 retval
= eonce_move_long_to_r3(target
,address
); // Destination address to r3
1269 err_check_propagate(retval
);
1270 eonce_load_TX_RX_high_to_r0(target
); // TX/RX reg address to r0
1271 err_check_propagate(retval
);
1272 retval
= eonce_move_long_to_r2(target
,HFM_BASE_ADDR
);// FM base address to r2
1273 err_check_propagate(retval
);
1274 // -- -- -- -- -- -- -- -- -- -- -- -- -- -- --
1275 // Run flashing program.
1276 // -- -- -- -- -- -- -- -- -- -- -- -- -- -- --
1277 retval
= eonce_move_value_at_r2_disp(target
,0x00,HFM_CNFG
); // write to HFM_CNFG (lock=0, select bank)
1278 err_check_propagate(retval
);
1279 retval
= eonce_move_value_at_r2_disp(target
,0x04,HFM_USTAT
);// write to HMF_USTAT, clear PVIOL, ACCERR & BLANK bits
1280 err_check_propagate(retval
);
1281 retval
= eonce_move_value_at_r2_disp(target
,0x10,HFM_USTAT
);// clear only one bit at a time
1282 err_check_propagate(retval
);
1283 retval
= eonce_move_value_at_r2_disp(target
,0x20,HFM_USTAT
);
1284 err_check_propagate(retval
);
1285 retval
= eonce_move_value_at_r2_disp(target
,0x00,HFM_PROT
);// write to HMF_PROT, clear protection
1286 err_check_propagate(retval
);
1287 retval
= eonce_move_value_at_r2_disp(target
,0x00,HFM_PROTB
);// write to HMF_PROTB, clear protection
1288 err_check_propagate(retval
);
1290 //TODO implement handling of odd number of words.
1291 retval
= ERROR_FAIL
;
1292 err_check(retval
,"Cannot handle odd number of words.");
1294 uint32_t drscan_data
;
1295 retval
= eonce_tx_upper_data(target
,buff16
[0],&drscan_data
);
1296 err_check_propagate(retval
);
1298 retval
= dsp5680xx_resume(target
,0,my_favourite_ram_address
,0,0);
1299 err_check_propagate(retval
);
1301 int counter
= FLUSH_COUNT_FLASH
;
1304 for(i
=1; (i
<count
/2)&&(i
<HFM_SIZE_WORDS
); i
++){
1307 counter
= FLUSH_COUNT_FLASH
;
1309 retval
= eonce_tx_upper_data(target
,buff16
[i
],&drscan_data
);
1310 if(retval
!=ERROR_OK
){
1312 err_check_propagate(retval
);
1317 // -- -- -- -- -- -- -- -- -- -- -- -- -- -- --
1319 // -- -- -- -- -- -- -- -- -- -- -- -- -- -- --
1322 retval
= dsp5680xx_f_signature(target
,address
,i
,&signature
);
1323 err_check_propagate(retval
);
1324 pc_crc
= perl_crc(buff16
,i
);
1325 if(pc_crc
!= signature
){
1326 retval
= ERROR_FAIL
;
1327 err_check(retval
,"Flashed data failed CRC check, flash again!");
1334 int dsp5680xx_f_unlock(struct target
* target
){
1336 if(target
->tap
->enabled
){
1337 //TODO find a way to switch to the master tap here.
1338 LOG_ERROR("Master tap must be enabled to unlock flash.");
1339 return ERROR_TARGET_FAILURE
;
1341 uint32_t data_to_shift_in
= MASTER_TAP_CMD_FLASH_ERASE
;
1342 uint32_t data_shifted_out
;
1343 retval
= dsp5680xx_irscan(target
,&data_to_shift_in
,&data_shifted_out
,8);
1344 err_check_propagate(retval
);
1345 data_to_shift_in
= HFM_CLK_DEFAULT
;
1346 retval
= dsp5680xx_drscan(target
,((uint8_t *) & data_to_shift_in
),((uint8_t *)&data_shifted_out
),8);
1347 err_check_propagate(retval
);
1351 int dsp5680xx_f_lock(struct target
* target
){
1353 uint16_t lock_word
[] = {HFM_LOCK_FLASH
,HFM_LOCK_FLASH
};
1354 retval
= dsp5680xx_f_wr(target
,(uint8_t *)(lock_word
),HFM_LOCK_ADDR_L
,4);
1355 err_check_propagate(retval
);
1359 static int dsp5680xx_step(struct target
* target
,int current
, uint32_t address
, int handle_breakpoints
){
1360 err_check(ERROR_FAIL
,"Not implemented yet.");
1363 /** Holds methods for dsp5680xx targets. */
1364 struct target_type dsp5680xx_target
= {
1365 .name
= "dsp5680xx",
1367 .poll
= dsp5680xx_poll
,
1368 .arch_state
= dsp5680xx_arch_state
,
1370 .target_request_data
= NULL
,
1372 .halt
= dsp5680xx_halt
,
1373 .resume
= dsp5680xx_resume
,
1374 .step
= dsp5680xx_step
,
1376 .write_buffer
= dsp5680xx_write_buffer
,
1377 .read_buffer
= dsp5680xx_read_buffer
,
1379 .assert_reset
= dsp5680xx_assert_reset
,
1380 .deassert_reset
= dsp5680xx_deassert_reset
,
1381 .soft_reset_halt
= dsp5680xx_soft_reset_halt
,
1383 .read_memory
= dsp5680xx_read
,
1384 .write_memory
= dsp5680xx_write
,
1385 .bulk_write_memory
= dsp5680xx_bulk_write_memory
,
1387 .checksum_memory
= dsp5680xx_checksum_memory
,
1389 .target_create
= dsp5680xx_target_create
,
1390 .init_target
= dsp5680xx_init_target
,
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