1 /***************************************************************************
2 * Copyright (C) 2013 by Andes Technology *
3 * Hsiangkai Wang <hkwang@andestech.com> *
5 * This program is free software; you can redistribute it and/or modify *
6 * it under the terms of the GNU General Public License as published by *
7 * the Free Software Foundation; either version 2 of the License, or *
8 * (at your option) any later version. *
10 * This program is distributed in the hope that it will be useful, *
11 * but WITHOUT ANY WARRANTY; without even the implied warranty of *
12 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the *
13 * GNU General Public License for more details. *
15 * You should have received a copy of the GNU General Public License *
16 * along with this program. If not, see <http://www.gnu.org/licenses/>. *
17 ***************************************************************************/
22 #include <jtag/drivers/libusb_common.h>
23 #include <helper/log.h>
24 #include <helper/time_support.h>
25 #include <target/target.h>
26 #include <jtag/jtag.h>
27 #include <target/nds32_insn.h>
28 #include <target/nds32_reg.h>
32 /* Global USB buffers */
33 static uint8_t usb_in_buffer
[AICE_IN_BUFFER_SIZE
];
34 static uint8_t usb_out_buffer
[AICE_OUT_BUFFER_SIZE
];
35 static uint32_t jtag_clock
;
36 static struct aice_usb_handler_s aice_handler
;
37 /* AICE max retry times. If AICE command timeout, retry it. */
38 static int aice_max_retry_times
= 50;
39 /* Default endian is little endian. */
40 static enum aice_target_endian data_endian
;
42 /* Constants for AICE command format length */
43 static const int32_t AICE_FORMAT_HTDA
= 3;
44 static const int32_t AICE_FORMAT_HTDC
= 7;
45 static const int32_t AICE_FORMAT_HTDMA
= 4;
46 static const int32_t AICE_FORMAT_HTDMB
= 8;
47 static const int32_t AICE_FORMAT_HTDMC
= 8;
48 static const int32_t AICE_FORMAT_HTDMD
= 12;
49 static const int32_t AICE_FORMAT_DTHA
= 6;
50 static const int32_t AICE_FORMAT_DTHB
= 2;
51 static const int32_t AICE_FORMAT_DTHMA
= 8;
52 static const int32_t AICE_FORMAT_DTHMB
= 4;
54 /* Constants for AICE command */
55 static const uint8_t AICE_CMD_SCAN_CHAIN
= 0x00;
56 static const uint8_t AICE_CMD_T_READ_MISC
= 0x20;
57 static const uint8_t AICE_CMD_T_READ_EDMSR
= 0x21;
58 static const uint8_t AICE_CMD_T_READ_DTR
= 0x22;
59 static const uint8_t AICE_CMD_T_READ_MEM_B
= 0x24;
60 static const uint8_t AICE_CMD_T_READ_MEM_H
= 0x25;
61 static const uint8_t AICE_CMD_T_READ_MEM
= 0x26;
62 static const uint8_t AICE_CMD_T_FASTREAD_MEM
= 0x27;
63 static const uint8_t AICE_CMD_T_WRITE_MISC
= 0x28;
64 static const uint8_t AICE_CMD_T_WRITE_EDMSR
= 0x29;
65 static const uint8_t AICE_CMD_T_WRITE_DTR
= 0x2A;
66 static const uint8_t AICE_CMD_T_WRITE_DIM
= 0x2B;
67 static const uint8_t AICE_CMD_T_WRITE_MEM_B
= 0x2C;
68 static const uint8_t AICE_CMD_T_WRITE_MEM_H
= 0x2D;
69 static const uint8_t AICE_CMD_T_WRITE_MEM
= 0x2E;
70 static const uint8_t AICE_CMD_T_FASTWRITE_MEM
= 0x2F;
71 static const uint8_t AICE_CMD_T_EXECUTE
= 0x3E;
72 static const uint8_t AICE_CMD_READ_CTRL
= 0x50;
73 static const uint8_t AICE_CMD_WRITE_CTRL
= 0x51;
74 static const uint8_t AICE_CMD_BATCH_BUFFER_READ
= 0x60;
75 static const uint8_t AICE_CMD_READ_DTR_TO_BUFFER
= 0x61;
76 static const uint8_t AICE_CMD_BATCH_BUFFER_WRITE
= 0x68;
77 static const uint8_t AICE_CMD_WRITE_DTR_FROM_BUFFER
= 0x69;
79 /***************************************************************************/
80 /* AICE commands' pack/unpack functions */
81 static void aice_pack_htda(uint8_t cmd_code
, uint8_t extra_word_length
,
84 usb_out_buffer
[0] = cmd_code
;
85 usb_out_buffer
[1] = extra_word_length
;
86 usb_out_buffer
[2] = (uint8_t)(address
& 0xFF);
89 static void aice_pack_htdc(uint8_t cmd_code
, uint8_t extra_word_length
,
90 uint32_t address
, uint32_t word
, enum aice_target_endian access_endian
)
92 usb_out_buffer
[0] = cmd_code
;
93 usb_out_buffer
[1] = extra_word_length
;
94 usb_out_buffer
[2] = (uint8_t)(address
& 0xFF);
95 if (access_endian
== AICE_BIG_ENDIAN
) {
96 usb_out_buffer
[6] = (uint8_t)((word
>> 24) & 0xFF);
97 usb_out_buffer
[5] = (uint8_t)((word
>> 16) & 0xFF);
98 usb_out_buffer
[4] = (uint8_t)((word
>> 8) & 0xFF);
99 usb_out_buffer
[3] = (uint8_t)(word
& 0xFF);
101 usb_out_buffer
[3] = (uint8_t)((word
>> 24) & 0xFF);
102 usb_out_buffer
[4] = (uint8_t)((word
>> 16) & 0xFF);
103 usb_out_buffer
[5] = (uint8_t)((word
>> 8) & 0xFF);
104 usb_out_buffer
[6] = (uint8_t)(word
& 0xFF);
108 static void aice_pack_htdma(uint8_t cmd_code
, uint8_t target_id
,
109 uint8_t extra_word_length
, uint32_t address
)
111 usb_out_buffer
[0] = cmd_code
;
112 usb_out_buffer
[1] = target_id
;
113 usb_out_buffer
[2] = extra_word_length
;
114 usb_out_buffer
[3] = (uint8_t)(address
& 0xFF);
117 static void aice_pack_htdmb(uint8_t cmd_code
, uint8_t target_id
,
118 uint8_t extra_word_length
, uint32_t address
)
120 usb_out_buffer
[0] = cmd_code
;
121 usb_out_buffer
[1] = target_id
;
122 usb_out_buffer
[2] = extra_word_length
;
123 usb_out_buffer
[3] = 0;
124 usb_out_buffer
[4] = (uint8_t)((address
>> 24) & 0xFF);
125 usb_out_buffer
[5] = (uint8_t)((address
>> 16) & 0xFF);
126 usb_out_buffer
[6] = (uint8_t)((address
>> 8) & 0xFF);
127 usb_out_buffer
[7] = (uint8_t)(address
& 0xFF);
130 static void aice_pack_htdmc(uint8_t cmd_code
, uint8_t target_id
,
131 uint8_t extra_word_length
, uint32_t address
, uint32_t word
,
132 enum aice_target_endian access_endian
)
134 usb_out_buffer
[0] = cmd_code
;
135 usb_out_buffer
[1] = target_id
;
136 usb_out_buffer
[2] = extra_word_length
;
137 usb_out_buffer
[3] = (uint8_t)(address
& 0xFF);
138 if (access_endian
== AICE_BIG_ENDIAN
) {
139 usb_out_buffer
[7] = (uint8_t)((word
>> 24) & 0xFF);
140 usb_out_buffer
[6] = (uint8_t)((word
>> 16) & 0xFF);
141 usb_out_buffer
[5] = (uint8_t)((word
>> 8) & 0xFF);
142 usb_out_buffer
[4] = (uint8_t)(word
& 0xFF);
144 usb_out_buffer
[4] = (uint8_t)((word
>> 24) & 0xFF);
145 usb_out_buffer
[5] = (uint8_t)((word
>> 16) & 0xFF);
146 usb_out_buffer
[6] = (uint8_t)((word
>> 8) & 0xFF);
147 usb_out_buffer
[7] = (uint8_t)(word
& 0xFF);
151 static void aice_pack_htdmc_multiple_data(uint8_t cmd_code
, uint8_t target_id
,
152 uint8_t extra_word_length
, uint32_t address
, uint32_t *word
,
153 uint8_t num_of_words
, enum aice_target_endian access_endian
)
155 usb_out_buffer
[0] = cmd_code
;
156 usb_out_buffer
[1] = target_id
;
157 usb_out_buffer
[2] = extra_word_length
;
158 usb_out_buffer
[3] = (uint8_t)(address
& 0xFF);
161 for (i
= 0 ; i
< num_of_words
; i
++, word
++) {
162 if (access_endian
== AICE_BIG_ENDIAN
) {
163 usb_out_buffer
[7 + i
* 4] = (uint8_t)((*word
>> 24) & 0xFF);
164 usb_out_buffer
[6 + i
* 4] = (uint8_t)((*word
>> 16) & 0xFF);
165 usb_out_buffer
[5 + i
* 4] = (uint8_t)((*word
>> 8) & 0xFF);
166 usb_out_buffer
[4 + i
* 4] = (uint8_t)(*word
& 0xFF);
168 usb_out_buffer
[4 + i
* 4] = (uint8_t)((*word
>> 24) & 0xFF);
169 usb_out_buffer
[5 + i
* 4] = (uint8_t)((*word
>> 16) & 0xFF);
170 usb_out_buffer
[6 + i
* 4] = (uint8_t)((*word
>> 8) & 0xFF);
171 usb_out_buffer
[7 + i
* 4] = (uint8_t)(*word
& 0xFF);
176 static void aice_pack_htdmd(uint8_t cmd_code
, uint8_t target_id
,
177 uint8_t extra_word_length
, uint32_t address
, uint32_t word
,
178 enum aice_target_endian access_endian
)
180 usb_out_buffer
[0] = cmd_code
;
181 usb_out_buffer
[1] = target_id
;
182 usb_out_buffer
[2] = extra_word_length
;
183 usb_out_buffer
[3] = 0;
184 usb_out_buffer
[4] = (uint8_t)((address
>> 24) & 0xFF);
185 usb_out_buffer
[5] = (uint8_t)((address
>> 16) & 0xFF);
186 usb_out_buffer
[6] = (uint8_t)((address
>> 8) & 0xFF);
187 usb_out_buffer
[7] = (uint8_t)(address
& 0xFF);
188 if (access_endian
== AICE_BIG_ENDIAN
) {
189 usb_out_buffer
[11] = (uint8_t)((word
>> 24) & 0xFF);
190 usb_out_buffer
[10] = (uint8_t)((word
>> 16) & 0xFF);
191 usb_out_buffer
[9] = (uint8_t)((word
>> 8) & 0xFF);
192 usb_out_buffer
[8] = (uint8_t)(word
& 0xFF);
194 usb_out_buffer
[8] = (uint8_t)((word
>> 24) & 0xFF);
195 usb_out_buffer
[9] = (uint8_t)((word
>> 16) & 0xFF);
196 usb_out_buffer
[10] = (uint8_t)((word
>> 8) & 0xFF);
197 usb_out_buffer
[11] = (uint8_t)(word
& 0xFF);
201 static void aice_pack_htdmd_multiple_data(uint8_t cmd_code
, uint8_t target_id
,
202 uint8_t extra_word_length
, uint32_t address
, const uint8_t *word
,
203 enum aice_target_endian access_endian
)
205 usb_out_buffer
[0] = cmd_code
;
206 usb_out_buffer
[1] = target_id
;
207 usb_out_buffer
[2] = extra_word_length
;
208 usb_out_buffer
[3] = 0;
209 usb_out_buffer
[4] = (uint8_t)((address
>> 24) & 0xFF);
210 usb_out_buffer
[5] = (uint8_t)((address
>> 16) & 0xFF);
211 usb_out_buffer
[6] = (uint8_t)((address
>> 8) & 0xFF);
212 usb_out_buffer
[7] = (uint8_t)(address
& 0xFF);
215 /* num_of_words may be over 0xFF, so use uint32_t */
216 uint32_t num_of_words
= extra_word_length
+ 1;
218 for (i
= 0 ; i
< num_of_words
; i
++, word
+= 4) {
219 if (access_endian
== AICE_BIG_ENDIAN
) {
220 usb_out_buffer
[11 + i
* 4] = word
[3];
221 usb_out_buffer
[10 + i
* 4] = word
[2];
222 usb_out_buffer
[9 + i
* 4] = word
[1];
223 usb_out_buffer
[8 + i
* 4] = word
[0];
225 usb_out_buffer
[8 + i
* 4] = word
[3];
226 usb_out_buffer
[9 + i
* 4] = word
[2];
227 usb_out_buffer
[10 + i
* 4] = word
[1];
228 usb_out_buffer
[11 + i
* 4] = word
[0];
233 static void aice_unpack_dtha(uint8_t *cmd_ack_code
, uint8_t *extra_word_length
,
234 uint32_t *word
, enum aice_target_endian access_endian
)
236 *cmd_ack_code
= usb_in_buffer
[0];
237 *extra_word_length
= usb_in_buffer
[1];
239 if (access_endian
== AICE_BIG_ENDIAN
) {
240 *word
= (usb_in_buffer
[5] << 24) |
241 (usb_in_buffer
[4] << 16) |
242 (usb_in_buffer
[3] << 8) |
245 *word
= (usb_in_buffer
[2] << 24) |
246 (usb_in_buffer
[3] << 16) |
247 (usb_in_buffer
[4] << 8) |
252 static void aice_unpack_dtha_multiple_data(uint8_t *cmd_ack_code
,
253 uint8_t *extra_word_length
, uint32_t *word
, uint8_t num_of_words
,
254 enum aice_target_endian access_endian
)
256 *cmd_ack_code
= usb_in_buffer
[0];
257 *extra_word_length
= usb_in_buffer
[1];
260 for (i
= 0 ; i
< num_of_words
; i
++, word
++) {
261 if (access_endian
== AICE_BIG_ENDIAN
) {
262 *word
= (usb_in_buffer
[5 + i
* 4] << 24) |
263 (usb_in_buffer
[4 + i
* 4] << 16) |
264 (usb_in_buffer
[3 + i
* 4] << 8) |
265 (usb_in_buffer
[2 + i
* 4]);
267 *word
= (usb_in_buffer
[2 + i
* 4] << 24) |
268 (usb_in_buffer
[3 + i
* 4] << 16) |
269 (usb_in_buffer
[4 + i
* 4] << 8) |
270 (usb_in_buffer
[5 + i
* 4]);
275 static void aice_unpack_dthb(uint8_t *cmd_ack_code
, uint8_t *extra_word_length
)
277 *cmd_ack_code
= usb_in_buffer
[0];
278 *extra_word_length
= usb_in_buffer
[1];
281 static void aice_unpack_dthma(uint8_t *cmd_ack_code
, uint8_t *target_id
,
282 uint8_t *extra_word_length
, uint32_t *word
,
283 enum aice_target_endian access_endian
)
285 *cmd_ack_code
= usb_in_buffer
[0];
286 *target_id
= usb_in_buffer
[1];
287 *extra_word_length
= usb_in_buffer
[2];
288 if (access_endian
== AICE_BIG_ENDIAN
) {
289 *word
= (usb_in_buffer
[7] << 24) |
290 (usb_in_buffer
[6] << 16) |
291 (usb_in_buffer
[5] << 8) |
294 *word
= (usb_in_buffer
[4] << 24) |
295 (usb_in_buffer
[5] << 16) |
296 (usb_in_buffer
[6] << 8) |
301 static void aice_unpack_dthma_multiple_data(uint8_t *cmd_ack_code
,
302 uint8_t *target_id
, uint8_t *extra_word_length
, uint8_t *word
,
303 enum aice_target_endian access_endian
)
305 *cmd_ack_code
= usb_in_buffer
[0];
306 *target_id
= usb_in_buffer
[1];
307 *extra_word_length
= usb_in_buffer
[2];
308 if (access_endian
== AICE_BIG_ENDIAN
) {
309 word
[0] = usb_in_buffer
[4];
310 word
[1] = usb_in_buffer
[5];
311 word
[2] = usb_in_buffer
[6];
312 word
[3] = usb_in_buffer
[7];
314 word
[0] = usb_in_buffer
[7];
315 word
[1] = usb_in_buffer
[6];
316 word
[2] = usb_in_buffer
[5];
317 word
[3] = usb_in_buffer
[4];
322 for (i
= 0; i
< *extra_word_length
; i
++) {
323 if (access_endian
== AICE_BIG_ENDIAN
) {
324 word
[0] = usb_in_buffer
[8 + i
* 4];
325 word
[1] = usb_in_buffer
[9 + i
* 4];
326 word
[2] = usb_in_buffer
[10 + i
* 4];
327 word
[3] = usb_in_buffer
[11 + i
* 4];
329 word
[0] = usb_in_buffer
[11 + i
* 4];
330 word
[1] = usb_in_buffer
[10 + i
* 4];
331 word
[2] = usb_in_buffer
[9 + i
* 4];
332 word
[3] = usb_in_buffer
[8 + i
* 4];
338 static void aice_unpack_dthmb(uint8_t *cmd_ack_code
, uint8_t *target_id
,
339 uint8_t *extra_word_length
)
341 *cmd_ack_code
= usb_in_buffer
[0];
342 *target_id
= usb_in_buffer
[1];
343 *extra_word_length
= usb_in_buffer
[2];
346 /***************************************************************************/
347 /* End of AICE commands' pack/unpack functions */
349 /* calls the given usb_bulk_* function, allowing for the data to
350 * trickle in with some timeouts */
351 static int usb_bulk_with_retries(
352 int (*f
)(jtag_libusb_device_handle
*, int, char *, int, int),
353 jtag_libusb_device_handle
*dev
, int ep
,
354 char *bytes
, int size
, int timeout
)
356 int tries
= 3, count
= 0;
358 while (tries
&& (count
< size
)) {
359 int result
= f(dev
, ep
, bytes
+ count
, size
- count
, timeout
);
362 else if ((-ETIMEDOUT
!= result
) || !--tries
)
368 static int wrap_usb_bulk_write(jtag_libusb_device_handle
*dev
, int ep
,
369 char *buff
, int size
, int timeout
)
371 /* usb_bulk_write() takes const char *buff */
372 return jtag_libusb_bulk_write(dev
, ep
, buff
, size
, timeout
);
375 static inline int usb_bulk_write_ex(jtag_libusb_device_handle
*dev
, int ep
,
376 char *bytes
, int size
, int timeout
)
378 return usb_bulk_with_retries(&wrap_usb_bulk_write
,
379 dev
, ep
, bytes
, size
, timeout
);
382 static inline int usb_bulk_read_ex(jtag_libusb_device_handle
*dev
, int ep
,
383 char *bytes
, int size
, int timeout
)
385 return usb_bulk_with_retries(&jtag_libusb_bulk_read
,
386 dev
, ep
, bytes
, size
, timeout
);
389 /* Write data from out_buffer to USB. */
390 static int aice_usb_write(uint8_t *out_buffer
, int out_length
)
394 if (out_length
> AICE_OUT_BUFFER_SIZE
) {
395 LOG_ERROR("aice_write illegal out_length=%i (max=%i)",
396 out_length
, AICE_OUT_BUFFER_SIZE
);
400 result
= usb_bulk_write_ex(aice_handler
.usb_handle
, aice_handler
.usb_write_ep
,
401 (char *)out_buffer
, out_length
, AICE_USB_TIMEOUT
);
403 DEBUG_JTAG_IO("aice_usb_write, out_length = %i, result = %i",
409 /* Read data from USB into in_buffer. */
410 static int aice_usb_read(uint8_t *in_buffer
, int expected_size
)
412 int32_t result
= usb_bulk_read_ex(aice_handler
.usb_handle
, aice_handler
.usb_read_ep
,
413 (char *)in_buffer
, expected_size
, AICE_USB_TIMEOUT
);
415 DEBUG_JTAG_IO("aice_usb_read, result = %" PRId32
, result
);
420 static uint8_t usb_out_packets_buffer
[AICE_OUT_PACKETS_BUFFER_SIZE
];
421 static uint8_t usb_in_packets_buffer
[AICE_IN_PACKETS_BUFFER_SIZE
];
422 static uint32_t usb_out_packets_buffer_length
;
423 static uint32_t usb_in_packets_buffer_length
;
424 static enum aice_command_mode aice_command_mode
;
426 static int aice_batch_buffer_write(uint8_t buf_index
, const uint8_t *word
,
427 uint32_t num_of_words
);
429 static int aice_usb_packet_flush(void)
431 if (usb_out_packets_buffer_length
== 0)
434 if (AICE_COMMAND_MODE_PACK
== aice_command_mode
) {
435 LOG_DEBUG("Flush usb packets (AICE_COMMAND_MODE_PACK)");
437 if (aice_usb_write(usb_out_packets_buffer
,
438 usb_out_packets_buffer_length
) < 0)
441 if (aice_usb_read(usb_in_packets_buffer
,
442 usb_in_packets_buffer_length
) < 0)
445 usb_out_packets_buffer_length
= 0;
446 usb_in_packets_buffer_length
= 0;
448 } else if (AICE_COMMAND_MODE_BATCH
== aice_command_mode
) {
449 LOG_DEBUG("Flush usb packets (AICE_COMMAND_MODE_BATCH)");
451 /* use BATCH_BUFFER_WRITE to fill command-batch-buffer */
452 if (aice_batch_buffer_write(AICE_BATCH_COMMAND_BUFFER_0
,
453 usb_out_packets_buffer
,
454 (usb_out_packets_buffer_length
+ 3) / 4) != ERROR_OK
)
457 usb_out_packets_buffer_length
= 0;
458 usb_in_packets_buffer_length
= 0;
460 /* enable BATCH command */
461 aice_command_mode
= AICE_COMMAND_MODE_NORMAL
;
462 if (aice_write_ctrl(AICE_WRITE_CTRL_BATCH_CTRL
, 0x80000000) != ERROR_OK
)
464 aice_command_mode
= AICE_COMMAND_MODE_BATCH
;
466 /* wait 1 second (AICE bug, workaround) */
471 uint32_t batch_status
;
475 aice_read_ctrl(AICE_READ_CTRL_BATCH_STATUS
, &batch_status
);
477 if (batch_status
& 0x1)
479 else if (batch_status
& 0xE)
492 static int aice_usb_packet_append(uint8_t *out_buffer
, int out_length
, int in_length
)
494 uint32_t max_packet_size
= AICE_OUT_PACKETS_BUFFER_SIZE
;
496 if (AICE_COMMAND_MODE_PACK
== aice_command_mode
) {
497 max_packet_size
= AICE_OUT_PACK_COMMAND_SIZE
;
498 } else if (AICE_COMMAND_MODE_BATCH
== aice_command_mode
) {
499 max_packet_size
= AICE_OUT_BATCH_COMMAND_SIZE
;
501 /* AICE_COMMAND_MODE_NORMAL */
502 if (aice_usb_packet_flush() != ERROR_OK
)
506 if (usb_out_packets_buffer_length
+ out_length
> max_packet_size
)
507 if (aice_usb_packet_flush() != ERROR_OK
) {
508 LOG_DEBUG("Flush usb packets failed");
512 LOG_DEBUG("Append usb packets 0x%02x", out_buffer
[0]);
514 memcpy(usb_out_packets_buffer
+ usb_out_packets_buffer_length
, out_buffer
, out_length
);
515 usb_out_packets_buffer_length
+= out_length
;
516 usb_in_packets_buffer_length
+= in_length
;
521 /***************************************************************************/
523 static int aice_reset_box(void)
525 if (aice_write_ctrl(AICE_WRITE_CTRL_CLEAR_TIMEOUT_STATUS
, 0x1) != ERROR_OK
)
528 /* turn off FASTMODE */
530 if (aice_read_ctrl(AICE_READ_CTRL_GET_JTAG_PIN_STATUS
, &pin_status
)
534 if (aice_write_ctrl(AICE_WRITE_CTRL_JTAG_PIN_STATUS
, pin_status
& (~0x2))
541 static int aice_scan_chain(uint32_t *id_codes
, uint8_t *num_of_ids
)
546 if ((AICE_COMMAND_MODE_PACK
== aice_command_mode
) ||
547 (AICE_COMMAND_MODE_BATCH
== aice_command_mode
))
548 aice_usb_packet_flush();
551 aice_pack_htda(AICE_CMD_SCAN_CHAIN
, 0x0F, 0x0);
553 aice_usb_write(usb_out_buffer
, AICE_FORMAT_HTDA
);
555 LOG_DEBUG("SCAN_CHAIN, length: 0x0F");
557 /** TODO: modify receive length */
558 result
= aice_usb_read(usb_in_buffer
, AICE_FORMAT_DTHA
);
559 if (AICE_FORMAT_DTHA
!= result
) {
560 LOG_ERROR("aice_usb_read failed (requested=%" PRIu32
", result=%" PRId32
")",
561 AICE_FORMAT_DTHA
, result
);
565 uint8_t cmd_ack_code
;
566 aice_unpack_dtha_multiple_data(&cmd_ack_code
, num_of_ids
, id_codes
,
567 0x10, AICE_LITTLE_ENDIAN
);
569 if (cmd_ack_code
!= AICE_CMD_SCAN_CHAIN
) {
571 if (retry_times
> aice_max_retry_times
) {
572 LOG_ERROR("aice command timeout (command=0x%" PRIx8
", response=0x%" PRIx8
")",
573 AICE_CMD_SCAN_CHAIN
, cmd_ack_code
);
577 /* clear timeout and retry */
578 if (aice_reset_box() != ERROR_OK
)
585 LOG_DEBUG("SCAN_CHAIN response, # of IDs: %" PRIu8
, *num_of_ids
);
587 if (*num_of_ids
== 0xFF) {
588 LOG_ERROR("No target connected");
590 } else if (*num_of_ids
== AICE_MAX_NUM_CORE
) {
591 LOG_INFO("The ice chain over 16 targets");
601 int aice_read_ctrl(uint32_t address
, uint32_t *data
)
605 if ((AICE_COMMAND_MODE_PACK
== aice_command_mode
) ||
606 (AICE_COMMAND_MODE_BATCH
== aice_command_mode
))
607 aice_usb_packet_flush();
609 aice_pack_htda(AICE_CMD_READ_CTRL
, 0, address
);
611 aice_usb_write(usb_out_buffer
, AICE_FORMAT_HTDA
);
613 LOG_DEBUG("READ_CTRL, address: 0x%" PRIx32
, address
);
615 result
= aice_usb_read(usb_in_buffer
, AICE_FORMAT_DTHA
);
616 if (AICE_FORMAT_DTHA
!= result
) {
617 LOG_ERROR("aice_usb_read failed (requested=%" PRIu32
", result=%" PRId32
")",
618 AICE_FORMAT_DTHA
, result
);
622 uint8_t cmd_ack_code
;
623 uint8_t extra_length
;
624 aice_unpack_dtha(&cmd_ack_code
, &extra_length
, data
, AICE_LITTLE_ENDIAN
);
626 LOG_DEBUG("READ_CTRL response, data: 0x%" PRIx32
, *data
);
628 if (cmd_ack_code
!= AICE_CMD_READ_CTRL
) {
629 LOG_ERROR("aice command error (command=0x%" PRIx32
", response=0x%" PRIx8
")",
630 (uint32_t)AICE_CMD_READ_CTRL
, cmd_ack_code
);
637 int aice_write_ctrl(uint32_t address
, uint32_t data
)
641 if (AICE_COMMAND_MODE_PACK
== aice_command_mode
) {
642 aice_usb_packet_flush();
643 } else if (AICE_COMMAND_MODE_BATCH
== aice_command_mode
) {
644 aice_pack_htdc(AICE_CMD_WRITE_CTRL
, 0, address
, data
, AICE_LITTLE_ENDIAN
);
645 return aice_usb_packet_append(usb_out_buffer
, AICE_FORMAT_HTDC
,
649 aice_pack_htdc(AICE_CMD_WRITE_CTRL
, 0, address
, data
, AICE_LITTLE_ENDIAN
);
651 aice_usb_write(usb_out_buffer
, AICE_FORMAT_HTDC
);
653 LOG_DEBUG("WRITE_CTRL, address: 0x%" PRIx32
", data: 0x%" PRIx32
, address
, data
);
655 result
= aice_usb_read(usb_in_buffer
, AICE_FORMAT_DTHB
);
656 if (AICE_FORMAT_DTHB
!= result
) {
657 LOG_ERROR("aice_usb_read failed (requested=%" PRIu32
", result=%" PRId32
")",
658 AICE_FORMAT_DTHB
, result
);
662 uint8_t cmd_ack_code
;
663 uint8_t extra_length
;
664 aice_unpack_dthb(&cmd_ack_code
, &extra_length
);
666 LOG_DEBUG("WRITE_CTRL response");
668 if (cmd_ack_code
!= AICE_CMD_WRITE_CTRL
) {
669 LOG_ERROR("aice command error (command=0x%" PRIx8
", response=0x%" PRIx8
")",
670 AICE_CMD_WRITE_CTRL
, cmd_ack_code
);
677 int aice_read_dtr(uint8_t target_id
, uint32_t *data
)
682 if ((AICE_COMMAND_MODE_PACK
== aice_command_mode
) ||
683 (AICE_COMMAND_MODE_BATCH
== aice_command_mode
))
684 aice_usb_packet_flush();
687 aice_pack_htdma(AICE_CMD_T_READ_DTR
, target_id
, 0, 0);
689 aice_usb_write(usb_out_buffer
, AICE_FORMAT_HTDMA
);
691 LOG_DEBUG("READ_DTR, COREID: %" PRIu8
, target_id
);
693 result
= aice_usb_read(usb_in_buffer
, AICE_FORMAT_DTHMA
);
694 if (AICE_FORMAT_DTHMA
!= result
) {
695 LOG_ERROR("aice_usb_read failed (requested=%" PRId32
", result=%" PRId32
")",
696 AICE_FORMAT_DTHMA
, result
);
700 uint8_t cmd_ack_code
;
701 uint8_t extra_length
;
702 uint8_t res_target_id
;
703 aice_unpack_dthma(&cmd_ack_code
, &res_target_id
, &extra_length
,
704 data
, AICE_LITTLE_ENDIAN
);
706 if (cmd_ack_code
== AICE_CMD_T_READ_DTR
) {
707 LOG_DEBUG("READ_DTR response, data: 0x%" PRIx32
, *data
);
711 if (retry_times
> aice_max_retry_times
) {
712 LOG_ERROR("aice command timeout (command=0x%" PRIx8
", response=0x%" PRIx8
")",
713 AICE_CMD_T_READ_DTR
, cmd_ack_code
);
717 /* clear timeout and retry */
718 if (aice_reset_box() != ERROR_OK
)
728 int aice_read_dtr_to_buffer(uint8_t target_id
, uint32_t buffer_idx
)
733 if (AICE_COMMAND_MODE_PACK
== aice_command_mode
) {
734 aice_usb_packet_flush();
735 } else if (AICE_COMMAND_MODE_BATCH
== aice_command_mode
) {
736 aice_pack_htdma(AICE_CMD_READ_DTR_TO_BUFFER
, target_id
, 0, buffer_idx
);
737 return aice_usb_packet_append(usb_out_buffer
, AICE_FORMAT_HTDMA
,
742 aice_pack_htdma(AICE_CMD_READ_DTR_TO_BUFFER
, target_id
, 0, buffer_idx
);
744 aice_usb_write(usb_out_buffer
, AICE_FORMAT_HTDMA
);
746 LOG_DEBUG("READ_DTR_TO_BUFFER, COREID: %" PRIu8
, target_id
);
748 result
= aice_usb_read(usb_in_buffer
, AICE_FORMAT_DTHMB
);
749 if (AICE_FORMAT_DTHMB
!= result
) {
750 LOG_ERROR("aice_usb_read failed (requested=%" PRId32
", result=%" PRId32
")", AICE_FORMAT_DTHMB
, result
);
754 uint8_t cmd_ack_code
;
755 uint8_t extra_length
;
756 uint8_t res_target_id
;
757 aice_unpack_dthmb(&cmd_ack_code
, &res_target_id
, &extra_length
);
759 if (cmd_ack_code
== AICE_CMD_READ_DTR_TO_BUFFER
) {
762 if (retry_times
> aice_max_retry_times
) {
763 LOG_ERROR("aice command timeout (command=0x%" PRIx8
", response=0x%" PRIx8
")",
764 AICE_CMD_READ_DTR_TO_BUFFER
, cmd_ack_code
);
769 /* clear timeout and retry */
770 if (aice_reset_box() != ERROR_OK
)
780 int aice_write_dtr(uint8_t target_id
, uint32_t data
)
785 if (AICE_COMMAND_MODE_PACK
== aice_command_mode
) {
786 aice_usb_packet_flush();
787 } else if (AICE_COMMAND_MODE_BATCH
== aice_command_mode
) {
788 aice_pack_htdmc(AICE_CMD_T_WRITE_DTR
, target_id
, 0, 0, data
, AICE_LITTLE_ENDIAN
);
789 return aice_usb_packet_append(usb_out_buffer
, AICE_FORMAT_HTDMC
,
794 aice_pack_htdmc(AICE_CMD_T_WRITE_DTR
, target_id
, 0, 0, data
, AICE_LITTLE_ENDIAN
);
796 aice_usb_write(usb_out_buffer
, AICE_FORMAT_HTDMC
);
798 LOG_DEBUG("WRITE_DTR, COREID: %" PRIu8
", data: 0x%" PRIx32
, target_id
, data
);
800 result
= aice_usb_read(usb_in_buffer
, AICE_FORMAT_DTHMB
);
801 if (AICE_FORMAT_DTHMB
!= result
) {
802 LOG_ERROR("aice_usb_read failed (requested=%" PRId32
", result=%" PRId32
")", AICE_FORMAT_DTHMB
, result
);
806 uint8_t cmd_ack_code
;
807 uint8_t extra_length
;
808 uint8_t res_target_id
;
809 aice_unpack_dthmb(&cmd_ack_code
, &res_target_id
, &extra_length
);
811 if (cmd_ack_code
== AICE_CMD_T_WRITE_DTR
) {
812 LOG_DEBUG("WRITE_DTR response");
815 if (retry_times
> aice_max_retry_times
) {
816 LOG_ERROR("aice command timeout (command=0x%" PRIx8
", response=0x%" PRIx8
")",
817 AICE_CMD_T_WRITE_DTR
, cmd_ack_code
);
822 /* clear timeout and retry */
823 if (aice_reset_box() != ERROR_OK
)
833 int aice_write_dtr_from_buffer(uint8_t target_id
, uint32_t buffer_idx
)
838 if (AICE_COMMAND_MODE_PACK
== aice_command_mode
) {
839 aice_usb_packet_flush();
840 } else if (AICE_COMMAND_MODE_BATCH
== aice_command_mode
) {
841 aice_pack_htdma(AICE_CMD_WRITE_DTR_FROM_BUFFER
, target_id
, 0, buffer_idx
);
842 return aice_usb_packet_append(usb_out_buffer
, AICE_FORMAT_HTDMA
,
847 aice_pack_htdma(AICE_CMD_WRITE_DTR_FROM_BUFFER
, target_id
, 0, buffer_idx
);
849 aice_usb_write(usb_out_buffer
, AICE_FORMAT_HTDMA
);
851 LOG_DEBUG("WRITE_DTR_FROM_BUFFER, COREID: %" PRIu8
"", target_id
);
853 result
= aice_usb_read(usb_in_buffer
, AICE_FORMAT_DTHMB
);
854 if (AICE_FORMAT_DTHMB
!= result
) {
855 LOG_ERROR("aice_usb_read failed (requested=%" PRId32
", result=%" PRId32
")", AICE_FORMAT_DTHMB
, result
);
859 uint8_t cmd_ack_code
;
860 uint8_t extra_length
;
861 uint8_t res_target_id
;
862 aice_unpack_dthmb(&cmd_ack_code
, &res_target_id
, &extra_length
);
864 if (cmd_ack_code
== AICE_CMD_WRITE_DTR_FROM_BUFFER
) {
867 if (retry_times
> aice_max_retry_times
) {
868 LOG_ERROR("aice command timeout (command=0x%" PRIx8
", response=0x%" PRIx8
")",
869 AICE_CMD_WRITE_DTR_FROM_BUFFER
, cmd_ack_code
);
874 /* clear timeout and retry */
875 if (aice_reset_box() != ERROR_OK
)
885 int aice_read_misc(uint8_t target_id
, uint32_t address
, uint32_t *data
)
890 if ((AICE_COMMAND_MODE_PACK
== aice_command_mode
) ||
891 (AICE_COMMAND_MODE_BATCH
== aice_command_mode
))
892 aice_usb_packet_flush();
895 aice_pack_htdma(AICE_CMD_T_READ_MISC
, target_id
, 0, address
);
897 aice_usb_write(usb_out_buffer
, AICE_FORMAT_HTDMA
);
899 LOG_DEBUG("READ_MISC, COREID: %" PRIu8
", address: 0x%" PRIx32
, target_id
, address
);
901 result
= aice_usb_read(usb_in_buffer
, AICE_FORMAT_DTHMA
);
902 if (AICE_FORMAT_DTHMA
!= result
) {
903 LOG_ERROR("aice_usb_read failed (requested=%" PRId32
", result=%" PRId32
")",
904 AICE_FORMAT_DTHMA
, result
);
905 return ERROR_AICE_DISCONNECT
;
908 uint8_t cmd_ack_code
;
909 uint8_t extra_length
;
910 uint8_t res_target_id
;
911 aice_unpack_dthma(&cmd_ack_code
, &res_target_id
, &extra_length
,
912 data
, AICE_LITTLE_ENDIAN
);
914 if (cmd_ack_code
== AICE_CMD_T_READ_MISC
) {
915 LOG_DEBUG("READ_MISC response, data: 0x%" PRIx32
, *data
);
918 if (retry_times
> aice_max_retry_times
) {
919 LOG_ERROR("aice command timeout (command=0x%" PRIx8
", response=0x%" PRIx8
")",
920 AICE_CMD_T_READ_MISC
, cmd_ack_code
);
924 /* clear timeout and retry */
925 if (aice_reset_box() != ERROR_OK
)
935 int aice_write_misc(uint8_t target_id
, uint32_t address
, uint32_t data
)
940 if (AICE_COMMAND_MODE_PACK
== aice_command_mode
) {
941 aice_usb_packet_flush();
942 } else if (AICE_COMMAND_MODE_BATCH
== aice_command_mode
) {
943 aice_pack_htdmc(AICE_CMD_T_WRITE_MISC
, target_id
, 0, address
, data
,
945 return aice_usb_packet_append(usb_out_buffer
, AICE_FORMAT_HTDMC
,
950 aice_pack_htdmc(AICE_CMD_T_WRITE_MISC
, target_id
, 0, address
,
951 data
, AICE_LITTLE_ENDIAN
);
953 aice_usb_write(usb_out_buffer
, AICE_FORMAT_HTDMC
);
955 LOG_DEBUG("WRITE_MISC, COREID: %" PRIu8
", address: 0x%" PRIx32
", data: 0x%" PRIx32
,
956 target_id
, address
, data
);
958 result
= aice_usb_read(usb_in_buffer
, AICE_FORMAT_DTHMB
);
959 if (AICE_FORMAT_DTHMB
!= result
) {
960 LOG_ERROR("aice_usb_read failed (requested=%" PRId32
", result=%" PRId32
")",
961 AICE_FORMAT_DTHMB
, result
);
965 uint8_t cmd_ack_code
;
966 uint8_t extra_length
;
967 uint8_t res_target_id
;
968 aice_unpack_dthmb(&cmd_ack_code
, &res_target_id
, &extra_length
);
970 if (cmd_ack_code
== AICE_CMD_T_WRITE_MISC
) {
971 LOG_DEBUG("WRITE_MISC response");
974 if (retry_times
> aice_max_retry_times
) {
975 LOG_ERROR("aice command timeout (command=0x%" PRIx8
", response=0x%" PRIx8
")",
976 AICE_CMD_T_WRITE_MISC
, cmd_ack_code
);
981 /* clear timeout and retry */
982 if (aice_reset_box() != ERROR_OK
)
992 int aice_read_edmsr(uint8_t target_id
, uint32_t address
, uint32_t *data
)
997 if ((AICE_COMMAND_MODE_PACK
== aice_command_mode
) ||
998 (AICE_COMMAND_MODE_BATCH
== aice_command_mode
))
999 aice_usb_packet_flush();
1002 aice_pack_htdma(AICE_CMD_T_READ_EDMSR
, target_id
, 0, address
);
1004 aice_usb_write(usb_out_buffer
, AICE_FORMAT_HTDMA
);
1006 LOG_DEBUG("READ_EDMSR, COREID: %" PRIu8
", address: 0x%" PRIx32
, target_id
, address
);
1008 result
= aice_usb_read(usb_in_buffer
, AICE_FORMAT_DTHMA
);
1009 if (AICE_FORMAT_DTHMA
!= result
) {
1010 LOG_ERROR("aice_usb_read failed (requested=%" PRId32
", result=%" PRId32
")",
1011 AICE_FORMAT_DTHMA
, result
);
1015 uint8_t cmd_ack_code
;
1016 uint8_t extra_length
;
1017 uint8_t res_target_id
;
1018 aice_unpack_dthma(&cmd_ack_code
, &res_target_id
, &extra_length
,
1019 data
, AICE_LITTLE_ENDIAN
);
1021 if (cmd_ack_code
== AICE_CMD_T_READ_EDMSR
) {
1022 LOG_DEBUG("READ_EDMSR response, data: 0x%" PRIx32
, *data
);
1025 if (retry_times
> aice_max_retry_times
) {
1026 LOG_ERROR("aice command timeout (command=0x%" PRIx8
", response=0x%" PRIx8
")",
1027 AICE_CMD_T_READ_EDMSR
, cmd_ack_code
);
1032 /* clear timeout and retry */
1033 if (aice_reset_box() != ERROR_OK
)
1043 int aice_write_edmsr(uint8_t target_id
, uint32_t address
, uint32_t data
)
1046 int retry_times
= 0;
1048 if (AICE_COMMAND_MODE_PACK
== aice_command_mode
) {
1049 aice_usb_packet_flush();
1050 } else if (AICE_COMMAND_MODE_BATCH
== aice_command_mode
) {
1051 aice_pack_htdmc(AICE_CMD_T_WRITE_EDMSR
, target_id
, 0, address
, data
,
1052 AICE_LITTLE_ENDIAN
);
1053 return aice_usb_packet_append(usb_out_buffer
, AICE_FORMAT_HTDMC
,
1058 aice_pack_htdmc(AICE_CMD_T_WRITE_EDMSR
, target_id
, 0, address
,
1059 data
, AICE_LITTLE_ENDIAN
);
1061 aice_usb_write(usb_out_buffer
, AICE_FORMAT_HTDMC
);
1063 LOG_DEBUG("WRITE_EDMSR, COREID: %" PRIu8
", address: 0x%" PRIx32
", data: 0x%" PRIx32
,
1064 target_id
, address
, data
);
1066 result
= aice_usb_read(usb_in_buffer
, AICE_FORMAT_DTHMB
);
1067 if (AICE_FORMAT_DTHMB
!= result
) {
1068 LOG_ERROR("aice_usb_read failed (requested=%" PRId32
", result=%" PRId32
")",
1069 AICE_FORMAT_DTHMB
, result
);
1073 uint8_t cmd_ack_code
;
1074 uint8_t extra_length
;
1075 uint8_t res_target_id
;
1076 aice_unpack_dthmb(&cmd_ack_code
, &res_target_id
, &extra_length
);
1078 if (cmd_ack_code
== AICE_CMD_T_WRITE_EDMSR
) {
1079 LOG_DEBUG("WRITE_EDMSR response");
1082 if (retry_times
> aice_max_retry_times
) {
1083 LOG_ERROR("aice command timeout (command=0x%" PRIx8
", response=0x%" PRIx8
")",
1084 AICE_CMD_T_WRITE_EDMSR
, cmd_ack_code
);
1089 /* clear timeout and retry */
1090 if (aice_reset_box() != ERROR_OK
)
1100 static int aice_switch_to_big_endian(uint32_t *word
, uint8_t num_of_words
)
1104 for (uint8_t i
= 0 ; i
< num_of_words
; i
++) {
1105 tmp
= ((word
[i
] >> 24) & 0x000000FF) |
1106 ((word
[i
] >> 8) & 0x0000FF00) |
1107 ((word
[i
] << 8) & 0x00FF0000) |
1108 ((word
[i
] << 24) & 0xFF000000);
1115 static int aice_write_dim(uint8_t target_id
, uint32_t *word
, uint8_t num_of_words
)
1118 uint32_t big_endian_word
[4];
1119 int retry_times
= 0;
1121 /** instruction is big-endian */
1122 memcpy(big_endian_word
, word
, sizeof(big_endian_word
));
1123 aice_switch_to_big_endian(big_endian_word
, num_of_words
);
1125 if (AICE_COMMAND_MODE_PACK
== aice_command_mode
) {
1126 aice_usb_packet_flush();
1127 } else if (AICE_COMMAND_MODE_BATCH
== aice_command_mode
) {
1128 aice_pack_htdmc_multiple_data(AICE_CMD_T_WRITE_DIM
, target_id
,
1129 num_of_words
- 1, 0, big_endian_word
, num_of_words
,
1130 AICE_LITTLE_ENDIAN
);
1131 return aice_usb_packet_append(usb_out_buffer
,
1132 AICE_FORMAT_HTDMC
+ (num_of_words
- 1) * 4,
1137 aice_pack_htdmc_multiple_data(AICE_CMD_T_WRITE_DIM
, target_id
, num_of_words
- 1, 0,
1138 big_endian_word
, num_of_words
, AICE_LITTLE_ENDIAN
);
1140 aice_usb_write(usb_out_buffer
, AICE_FORMAT_HTDMC
+ (num_of_words
- 1) * 4);
1142 LOG_DEBUG("WRITE_DIM, COREID: %" PRIu8
1143 ", data: 0x%08" PRIx32
", 0x%08" PRIx32
", 0x%08" PRIx32
", 0x%08" PRIx32
,
1148 big_endian_word
[3]);
1150 result
= aice_usb_read(usb_in_buffer
, AICE_FORMAT_DTHMB
);
1151 if (AICE_FORMAT_DTHMB
!= result
) {
1152 LOG_ERROR("aice_usb_read failed (requested=%" PRId32
", result=%" PRId32
")", AICE_FORMAT_DTHMB
, result
);
1156 uint8_t cmd_ack_code
;
1157 uint8_t extra_length
;
1158 uint8_t res_target_id
;
1159 aice_unpack_dthmb(&cmd_ack_code
, &res_target_id
, &extra_length
);
1162 if (cmd_ack_code
== AICE_CMD_T_WRITE_DIM
) {
1163 LOG_DEBUG("WRITE_DIM response");
1166 if (retry_times
> aice_max_retry_times
) {
1167 LOG_ERROR("aice command timeout (command=0x%" PRIx8
1168 ", response=0x%" PRIx8
")",
1169 AICE_CMD_T_WRITE_DIM
, cmd_ack_code
);
1174 /* clear timeout and retry */
1175 if (aice_reset_box() != ERROR_OK
)
1185 static int aice_do_execute(uint8_t target_id
)
1188 int retry_times
= 0;
1190 if (AICE_COMMAND_MODE_PACK
== aice_command_mode
) {
1191 aice_usb_packet_flush();
1192 } else if (AICE_COMMAND_MODE_BATCH
== aice_command_mode
) {
1193 aice_pack_htdmc(AICE_CMD_T_EXECUTE
, target_id
, 0, 0, 0, AICE_LITTLE_ENDIAN
);
1194 return aice_usb_packet_append(usb_out_buffer
,
1200 aice_pack_htdmc(AICE_CMD_T_EXECUTE
, target_id
, 0, 0, 0, AICE_LITTLE_ENDIAN
);
1202 aice_usb_write(usb_out_buffer
, AICE_FORMAT_HTDMC
);
1204 LOG_DEBUG("EXECUTE, COREID: %" PRIu8
"", target_id
);
1206 result
= aice_usb_read(usb_in_buffer
, AICE_FORMAT_DTHMB
);
1207 if (AICE_FORMAT_DTHMB
!= result
) {
1208 LOG_ERROR("aice_usb_read failed (requested=%" PRId32
", result=%" PRId32
")",
1209 AICE_FORMAT_DTHMB
, result
);
1213 uint8_t cmd_ack_code
;
1214 uint8_t extra_length
;
1215 uint8_t res_target_id
;
1216 aice_unpack_dthmb(&cmd_ack_code
, &res_target_id
, &extra_length
);
1218 if (cmd_ack_code
== AICE_CMD_T_EXECUTE
) {
1219 LOG_DEBUG("EXECUTE response");
1222 if (retry_times
> aice_max_retry_times
) {
1223 LOG_ERROR("aice command timeout (command=0x%" PRIx8
", response=0x%" PRIx8
")",
1224 AICE_CMD_T_EXECUTE
, cmd_ack_code
);
1229 /* clear timeout and retry */
1230 if (aice_reset_box() != ERROR_OK
)
1240 int aice_write_mem_b(uint8_t target_id
, uint32_t address
, uint32_t data
)
1243 int retry_times
= 0;
1245 LOG_DEBUG("WRITE_MEM_B, COREID: %" PRIu8
", ADDRESS %08" PRIx32
" VALUE %08" PRIx32
,
1250 if ((AICE_COMMAND_MODE_PACK
== aice_command_mode
) ||
1251 (AICE_COMMAND_MODE_BATCH
== aice_command_mode
)) {
1252 aice_pack_htdmd(AICE_CMD_T_WRITE_MEM_B
, target_id
, 0, address
,
1253 data
& 0x000000FF, data_endian
);
1254 return aice_usb_packet_append(usb_out_buffer
, AICE_FORMAT_HTDMD
,
1258 aice_pack_htdmd(AICE_CMD_T_WRITE_MEM_B
, target_id
, 0,
1259 address
, data
& 0x000000FF, data_endian
);
1260 aice_usb_write(usb_out_buffer
, AICE_FORMAT_HTDMD
);
1262 result
= aice_usb_read(usb_in_buffer
, AICE_FORMAT_DTHMB
);
1263 if (AICE_FORMAT_DTHMB
!= result
) {
1264 LOG_ERROR("aice_usb_read failed (requested=%" PRId32
1265 ", result=%" PRId32
")", AICE_FORMAT_DTHMB
, result
);
1269 uint8_t cmd_ack_code
;
1270 uint8_t extra_length
;
1271 uint8_t res_target_id
;
1272 aice_unpack_dthmb(&cmd_ack_code
, &res_target_id
, &extra_length
);
1274 if (cmd_ack_code
== AICE_CMD_T_WRITE_MEM_B
) {
1277 if (retry_times
> aice_max_retry_times
) {
1278 LOG_ERROR("aice command timeout (command=0x%" PRIx8
", response=0x%" PRIx8
")",
1279 AICE_CMD_T_WRITE_MEM_B
, cmd_ack_code
);
1284 /* clear timeout and retry */
1285 if (aice_reset_box() != ERROR_OK
)
1296 int aice_write_mem_h(uint8_t target_id
, uint32_t address
, uint32_t data
)
1299 int retry_times
= 0;
1301 LOG_DEBUG("WRITE_MEM_H, COREID: %" PRIu8
", ADDRESS %08" PRIx32
" VALUE %08" PRIx32
,
1306 if ((AICE_COMMAND_MODE_PACK
== aice_command_mode
) ||
1307 (AICE_COMMAND_MODE_BATCH
== aice_command_mode
)) {
1308 aice_pack_htdmd(AICE_CMD_T_WRITE_MEM_H
, target_id
, 0,
1309 (address
>> 1) & 0x7FFFFFFF, data
& 0x0000FFFF, data_endian
);
1310 return aice_usb_packet_append(usb_out_buffer
, AICE_FORMAT_HTDMD
,
1314 aice_pack_htdmd(AICE_CMD_T_WRITE_MEM_H
, target_id
, 0,
1315 (address
>> 1) & 0x7FFFFFFF, data
& 0x0000FFFF, data_endian
);
1316 aice_usb_write(usb_out_buffer
, AICE_FORMAT_HTDMD
);
1318 result
= aice_usb_read(usb_in_buffer
, AICE_FORMAT_DTHMB
);
1319 if (AICE_FORMAT_DTHMB
!= result
) {
1320 LOG_ERROR("aice_usb_read failed (requested=%" PRId32
", result=%" PRId32
")",
1321 AICE_FORMAT_DTHMB
, result
);
1325 uint8_t cmd_ack_code
;
1326 uint8_t extra_length
;
1327 uint8_t res_target_id
;
1328 aice_unpack_dthmb(&cmd_ack_code
, &res_target_id
, &extra_length
);
1330 if (cmd_ack_code
== AICE_CMD_T_WRITE_MEM_H
) {
1333 if (retry_times
> aice_max_retry_times
) {
1334 LOG_ERROR("aice command timeout (command=0x%" PRIx8
", response=0x%" PRIx8
")",
1335 AICE_CMD_T_WRITE_MEM_H
, cmd_ack_code
);
1340 /* clear timeout and retry */
1341 if (aice_reset_box() != ERROR_OK
)
1352 int aice_write_mem(uint8_t target_id
, uint32_t address
, uint32_t data
)
1355 int retry_times
= 0;
1357 LOG_DEBUG("WRITE_MEM, COREID: %" PRIu8
", ADDRESS %08" PRIx32
" VALUE %08" PRIx32
,
1362 if ((AICE_COMMAND_MODE_PACK
== aice_command_mode
) ||
1363 (AICE_COMMAND_MODE_BATCH
== aice_command_mode
)) {
1364 aice_pack_htdmd(AICE_CMD_T_WRITE_MEM
, target_id
, 0,
1365 (address
>> 2) & 0x3FFFFFFF, data
, data_endian
);
1366 return aice_usb_packet_append(usb_out_buffer
, AICE_FORMAT_HTDMD
,
1370 aice_pack_htdmd(AICE_CMD_T_WRITE_MEM
, target_id
, 0,
1371 (address
>> 2) & 0x3FFFFFFF, data
, data_endian
);
1372 aice_usb_write(usb_out_buffer
, AICE_FORMAT_HTDMD
);
1374 result
= aice_usb_read(usb_in_buffer
, AICE_FORMAT_DTHMB
);
1375 if (AICE_FORMAT_DTHMB
!= result
) {
1376 LOG_ERROR("aice_usb_read failed (requested=%" PRId32
", result=%" PRId32
")",
1377 AICE_FORMAT_DTHMB
, result
);
1381 uint8_t cmd_ack_code
;
1382 uint8_t extra_length
;
1383 uint8_t res_target_id
;
1384 aice_unpack_dthmb(&cmd_ack_code
, &res_target_id
, &extra_length
);
1386 if (cmd_ack_code
== AICE_CMD_T_WRITE_MEM
) {
1389 if (retry_times
> aice_max_retry_times
) {
1390 LOG_ERROR("aice command timeout (command=0x%" PRIx8
", response=0x%" PRIx8
")",
1391 AICE_CMD_T_WRITE_MEM
, cmd_ack_code
);
1396 /* clear timeout and retry */
1397 if (aice_reset_box() != ERROR_OK
)
1408 int aice_fastread_mem(uint8_t target_id
, uint8_t *word
, uint32_t num_of_words
)
1411 int retry_times
= 0;
1413 if ((AICE_COMMAND_MODE_PACK
== aice_command_mode
) ||
1414 (AICE_COMMAND_MODE_BATCH
== aice_command_mode
))
1415 aice_usb_packet_flush();
1418 aice_pack_htdmb(AICE_CMD_T_FASTREAD_MEM
, target_id
, num_of_words
- 1, 0);
1420 aice_usb_write(usb_out_buffer
, AICE_FORMAT_HTDMB
);
1422 LOG_DEBUG("FASTREAD_MEM, COREID: %" PRIu8
", # of DATA %08" PRIx32
,
1423 target_id
, num_of_words
);
1425 result
= aice_usb_read(usb_in_buffer
, AICE_FORMAT_DTHMA
+ (num_of_words
- 1) * 4);
1427 LOG_ERROR("aice_usb_read failed (requested=%" PRId32
", result=%" PRId32
")",
1428 AICE_FORMAT_DTHMA
+ (num_of_words
- 1) * 4, result
);
1432 uint8_t cmd_ack_code
;
1433 uint8_t extra_length
;
1434 uint8_t res_target_id
;
1435 aice_unpack_dthma_multiple_data(&cmd_ack_code
, &res_target_id
,
1436 &extra_length
, word
, data_endian
);
1438 if (cmd_ack_code
== AICE_CMD_T_FASTREAD_MEM
) {
1441 if (retry_times
> aice_max_retry_times
) {
1442 LOG_ERROR("aice command timeout (command=0x%" PRIx8
", response=0x%" PRIx8
")",
1443 AICE_CMD_T_FASTREAD_MEM
, cmd_ack_code
);
1448 /* clear timeout and retry */
1449 if (aice_reset_box() != ERROR_OK
)
1459 int aice_fastwrite_mem(uint8_t target_id
, const uint8_t *word
, uint32_t num_of_words
)
1462 int retry_times
= 0;
1464 if (AICE_COMMAND_MODE_PACK
== aice_command_mode
) {
1465 aice_usb_packet_flush();
1466 } else if (AICE_COMMAND_MODE_BATCH
== aice_command_mode
) {
1467 aice_pack_htdmd_multiple_data(AICE_CMD_T_FASTWRITE_MEM
, target_id
,
1468 num_of_words
- 1, 0, word
, data_endian
);
1469 return aice_usb_packet_append(usb_out_buffer
,
1470 AICE_FORMAT_HTDMD
+ (num_of_words
- 1) * 4,
1475 aice_pack_htdmd_multiple_data(AICE_CMD_T_FASTWRITE_MEM
, target_id
,
1476 num_of_words
- 1, 0, word
, data_endian
);
1478 aice_usb_write(usb_out_buffer
, AICE_FORMAT_HTDMD
+ (num_of_words
- 1) * 4);
1480 LOG_DEBUG("FASTWRITE_MEM, COREID: %" PRIu8
", # of DATA %08" PRIx32
,
1481 target_id
, num_of_words
);
1483 result
= aice_usb_read(usb_in_buffer
, AICE_FORMAT_DTHMB
);
1484 if (AICE_FORMAT_DTHMB
!= result
) {
1485 LOG_ERROR("aice_usb_read failed (requested=%" PRId32
", result=%" PRId32
")",
1486 AICE_FORMAT_DTHMB
, result
);
1490 uint8_t cmd_ack_code
;
1491 uint8_t extra_length
;
1492 uint8_t res_target_id
;
1493 aice_unpack_dthmb(&cmd_ack_code
, &res_target_id
, &extra_length
);
1495 if (cmd_ack_code
== AICE_CMD_T_FASTWRITE_MEM
) {
1498 if (retry_times
> aice_max_retry_times
) {
1499 LOG_ERROR("aice command timeout (command=0x%" PRIx8
", response=0x%" PRIx8
")",
1500 AICE_CMD_T_FASTWRITE_MEM
, cmd_ack_code
);
1505 /* clear timeout and retry */
1506 if (aice_reset_box() != ERROR_OK
)
1516 int aice_read_mem_b(uint8_t target_id
, uint32_t address
, uint32_t *data
)
1519 int retry_times
= 0;
1521 if ((AICE_COMMAND_MODE_PACK
== aice_command_mode
) ||
1522 (AICE_COMMAND_MODE_BATCH
== aice_command_mode
))
1523 aice_usb_packet_flush();
1526 aice_pack_htdmb(AICE_CMD_T_READ_MEM_B
, target_id
, 0, address
);
1528 aice_usb_write(usb_out_buffer
, AICE_FORMAT_HTDMB
);
1530 LOG_DEBUG("READ_MEM_B, COREID: %" PRIu8
"", target_id
);
1532 result
= aice_usb_read(usb_in_buffer
, AICE_FORMAT_DTHMA
);
1533 if (AICE_FORMAT_DTHMA
!= result
) {
1534 LOG_ERROR("aice_usb_read failed (requested=%" PRId32
", result=%" PRId32
")",
1535 AICE_FORMAT_DTHMA
, result
);
1539 uint8_t cmd_ack_code
;
1540 uint8_t extra_length
;
1541 uint8_t res_target_id
;
1542 aice_unpack_dthma(&cmd_ack_code
, &res_target_id
, &extra_length
,
1545 if (cmd_ack_code
== AICE_CMD_T_READ_MEM_B
) {
1546 LOG_DEBUG("READ_MEM_B response, data: 0x%02" PRIx32
, *data
);
1549 if (retry_times
> aice_max_retry_times
) {
1550 LOG_ERROR("aice command timeout (command=0x%" PRIx8
", response=0x%" PRIx8
")",
1551 AICE_CMD_T_READ_MEM_B
, cmd_ack_code
);
1556 /* clear timeout and retry */
1557 if (aice_reset_box() != ERROR_OK
)
1567 int aice_read_mem_h(uint8_t target_id
, uint32_t address
, uint32_t *data
)
1570 int retry_times
= 0;
1572 if ((AICE_COMMAND_MODE_PACK
== aice_command_mode
) ||
1573 (AICE_COMMAND_MODE_BATCH
== aice_command_mode
))
1574 aice_usb_packet_flush();
1577 aice_pack_htdmb(AICE_CMD_T_READ_MEM_H
, target_id
, 0, (address
>> 1) & 0x7FFFFFFF);
1579 aice_usb_write(usb_out_buffer
, AICE_FORMAT_HTDMB
);
1581 LOG_DEBUG("READ_MEM_H, CORE_ID: %" PRIu8
"", target_id
);
1583 result
= aice_usb_read(usb_in_buffer
, AICE_FORMAT_DTHMA
);
1584 if (AICE_FORMAT_DTHMA
!= result
) {
1585 LOG_ERROR("aice_usb_read failed (requested=%" PRId32
", result=%" PRId32
")",
1586 AICE_FORMAT_DTHMA
, result
);
1590 uint8_t cmd_ack_code
;
1591 uint8_t extra_length
;
1592 uint8_t res_target_id
;
1593 aice_unpack_dthma(&cmd_ack_code
, &res_target_id
, &extra_length
,
1596 if (cmd_ack_code
== AICE_CMD_T_READ_MEM_H
) {
1597 LOG_DEBUG("READ_MEM_H response, data: 0x%" PRIx32
, *data
);
1600 if (retry_times
> aice_max_retry_times
) {
1601 LOG_ERROR("aice command timeout (command=0x%" PRIx8
", response=0x%" PRIx8
")",
1602 AICE_CMD_T_READ_MEM_H
, cmd_ack_code
);
1607 /* clear timeout and retry */
1608 if (aice_reset_box() != ERROR_OK
)
1618 int aice_read_mem(uint8_t target_id
, uint32_t address
, uint32_t *data
)
1621 int retry_times
= 0;
1623 if ((AICE_COMMAND_MODE_PACK
== aice_command_mode
) ||
1624 (AICE_COMMAND_MODE_BATCH
== aice_command_mode
))
1625 aice_usb_packet_flush();
1628 aice_pack_htdmb(AICE_CMD_T_READ_MEM
, target_id
, 0,
1629 (address
>> 2) & 0x3FFFFFFF);
1631 aice_usb_write(usb_out_buffer
, AICE_FORMAT_HTDMB
);
1633 LOG_DEBUG("READ_MEM, COREID: %" PRIu8
"", target_id
);
1635 result
= aice_usb_read(usb_in_buffer
, AICE_FORMAT_DTHMA
);
1636 if (AICE_FORMAT_DTHMA
!= result
) {
1637 LOG_ERROR("aice_usb_read failed (requested=%" PRId32
", result=%" PRId32
")",
1638 AICE_FORMAT_DTHMA
, result
);
1642 uint8_t cmd_ack_code
;
1643 uint8_t extra_length
;
1644 uint8_t res_target_id
;
1645 aice_unpack_dthma(&cmd_ack_code
, &res_target_id
, &extra_length
,
1648 if (cmd_ack_code
== AICE_CMD_T_READ_MEM
) {
1649 LOG_DEBUG("READ_MEM response, data: 0x%" PRIx32
, *data
);
1652 if (retry_times
> aice_max_retry_times
) {
1653 LOG_ERROR("aice command timeout (command=0x%" PRIx8
", response=0x%" PRIx8
")",
1654 AICE_CMD_T_READ_MEM
, cmd_ack_code
);
1659 /* clear timeout and retry */
1660 if (aice_reset_box() != ERROR_OK
)
1670 int aice_batch_buffer_read(uint8_t buf_index
, uint32_t *word
, uint32_t num_of_words
)
1673 int retry_times
= 0;
1676 aice_pack_htdma(AICE_CMD_BATCH_BUFFER_READ
, 0, num_of_words
- 1, buf_index
);
1678 aice_usb_write(usb_out_buffer
, AICE_FORMAT_HTDMA
);
1680 LOG_DEBUG("BATCH_BUFFER_READ, # of DATA %08" PRIx32
, num_of_words
);
1682 result
= aice_usb_read(usb_in_buffer
, AICE_FORMAT_DTHMA
+ (num_of_words
- 1) * 4);
1684 LOG_ERROR("aice_usb_read failed (requested=%" PRId32
", result=%" PRId32
")",
1685 AICE_FORMAT_DTHMA
+ (num_of_words
- 1) * 4, result
);
1689 uint8_t cmd_ack_code
;
1690 uint8_t extra_length
;
1691 uint8_t res_target_id
;
1692 aice_unpack_dthma_multiple_data(&cmd_ack_code
, &res_target_id
,
1693 &extra_length
, (uint8_t *)word
, data_endian
);
1695 if (cmd_ack_code
== AICE_CMD_BATCH_BUFFER_READ
) {
1698 if (retry_times
> aice_max_retry_times
) {
1699 LOG_ERROR("aice command timeout (command=0x%" PRIx8
", response=0x%" PRIx8
")",
1700 AICE_CMD_BATCH_BUFFER_READ
, cmd_ack_code
);
1705 /* clear timeout and retry */
1706 if (aice_reset_box() != ERROR_OK
)
1716 int aice_batch_buffer_write(uint8_t buf_index
, const uint8_t *word
, uint32_t num_of_words
)
1719 int retry_times
= 0;
1721 if (num_of_words
== 0)
1725 /* only pack AICE_CMD_BATCH_BUFFER_WRITE command header */
1726 aice_pack_htdmc(AICE_CMD_BATCH_BUFFER_WRITE
, 0, num_of_words
- 1, buf_index
,
1729 /* use append instead of pack */
1730 memcpy(usb_out_buffer
+ 4, word
, num_of_words
* 4);
1732 aice_usb_write(usb_out_buffer
, AICE_FORMAT_HTDMC
+ (num_of_words
- 1) * 4);
1734 LOG_DEBUG("BATCH_BUFFER_WRITE, # of DATA %08" PRIx32
, num_of_words
);
1736 result
= aice_usb_read(usb_in_buffer
, AICE_FORMAT_DTHMB
);
1737 if (AICE_FORMAT_DTHMB
!= result
) {
1738 LOG_ERROR("aice_usb_read failed (requested=%" PRId32
", result=%" PRId32
")",
1739 AICE_FORMAT_DTHMB
, result
);
1743 uint8_t cmd_ack_code
;
1744 uint8_t extra_length
;
1745 uint8_t res_target_id
;
1746 aice_unpack_dthmb(&cmd_ack_code
, &res_target_id
, &extra_length
);
1748 if (cmd_ack_code
== AICE_CMD_BATCH_BUFFER_WRITE
) {
1751 if (retry_times
> aice_max_retry_times
) {
1752 LOG_ERROR("aice command timeout (command=0x%" PRIx8
", response=0x%" PRIx8
")",
1753 AICE_CMD_BATCH_BUFFER_WRITE
, cmd_ack_code
);
1758 /* clear timeout and retry */
1759 if (aice_reset_box() != ERROR_OK
)
1769 /***************************************************************************/
1770 /* End of AICE commands */
1772 typedef int (*read_mem_func_t
)(uint32_t coreid
, uint32_t address
, uint32_t *data
);
1773 typedef int (*write_mem_func_t
)(uint32_t coreid
, uint32_t address
, uint32_t data
);
1775 struct aice_nds32_info core_info
[AICE_MAX_NUM_CORE
];
1776 static uint8_t total_num_of_core
;
1778 static char *custom_srst_script
;
1779 static char *custom_trst_script
;
1780 static char *custom_restart_script
;
1781 static uint32_t aice_count_to_check_dbger
= 30;
1783 static int aice_read_reg(uint32_t coreid
, uint32_t num
, uint32_t *val
);
1784 static int aice_write_reg(uint32_t coreid
, uint32_t num
, uint32_t val
);
1786 static int check_suppressed_exception(uint32_t coreid
, uint32_t dbger_value
)
1790 /* the default value of handling_suppressed_exception is false */
1791 static bool handling_suppressed_exception
;
1793 if (handling_suppressed_exception
)
1796 if ((dbger_value
& NDS_DBGER_ALL_SUPRS_EX
) == NDS_DBGER_ALL_SUPRS_EX
) {
1797 LOG_ERROR("<-- TARGET WARNING! Exception is detected and suppressed. -->");
1798 handling_suppressed_exception
= true;
1800 aice_read_reg(coreid
, IR4
, &ir4_value
);
1801 /* Clear IR6.SUPRS_EXC, IR6.IMP_EXC */
1802 aice_read_reg(coreid
, IR6
, &ir6_value
);
1804 * For MCU version(MSC_CFG.MCU == 1) like V3m
1805 * | SWID[30:16] | Reserved[15:10] | SUPRS_EXC[9] | IMP_EXC[8]
1806 * |VECTOR[7:5] | INST[4] | Exc Type[3:0] |
1808 * For non-MCU version(MSC_CFG.MCU == 0) like V3
1809 * | SWID[30:16] | Reserved[15:14] | SUPRS_EXC[13] | IMP_EXC[12]
1810 * | VECTOR[11:5] | INST[4] | Exc Type[3:0] |
1812 LOG_INFO("EVA: 0x%08" PRIx32
, ir4_value
);
1813 LOG_INFO("ITYPE: 0x%08" PRIx32
, ir6_value
);
1815 ir6_value
= ir6_value
& (~0x300); /* for MCU */
1816 ir6_value
= ir6_value
& (~0x3000); /* for non-MCU */
1817 aice_write_reg(coreid
, IR6
, ir6_value
);
1819 handling_suppressed_exception
= false;
1825 static int check_privilege(uint32_t coreid
, uint32_t dbger_value
)
1827 if ((dbger_value
& NDS_DBGER_ILL_SEC_ACC
) == NDS_DBGER_ILL_SEC_ACC
) {
1828 LOG_ERROR("<-- TARGET ERROR! Insufficient security privilege "
1829 "to execute the debug operations. -->");
1831 /* Clear DBGER.ILL_SEC_ACC */
1832 if (aice_write_misc(coreid
, NDS_EDM_MISC_DBGER
,
1833 NDS_DBGER_ILL_SEC_ACC
) != ERROR_OK
)
1840 static int aice_check_dbger(uint32_t coreid
, uint32_t expect_status
)
1843 uint32_t value_dbger
;
1846 aice_read_misc(coreid
, NDS_EDM_MISC_DBGER
, &value_dbger
);
1848 if ((value_dbger
& expect_status
) == expect_status
) {
1849 if (ERROR_OK
!= check_suppressed_exception(coreid
, value_dbger
))
1851 if (ERROR_OK
!= check_privilege(coreid
, value_dbger
))
1860 if (i
== aice_count_to_check_dbger
)
1861 then
= timeval_ms();
1862 if (i
>= aice_count_to_check_dbger
) {
1863 if ((timeval_ms() - then
) > 1000) {
1864 LOG_ERROR("Timeout (1000ms) waiting for $DBGER status "
1865 "being 0x%08" PRIx32
, expect_status
);
1875 static int aice_execute_dim(uint32_t coreid
, uint32_t *insts
, uint8_t n_inst
)
1878 if (aice_write_dim(coreid
, insts
, n_inst
) != ERROR_OK
)
1881 /** clear DBGER.DPED */
1882 if (aice_write_misc(coreid
, NDS_EDM_MISC_DBGER
, NDS_DBGER_DPED
) != ERROR_OK
)
1886 if (aice_do_execute(coreid
) != ERROR_OK
)
1889 /** read DBGER.DPED */
1890 if (aice_check_dbger(coreid
, NDS_DBGER_DPED
) != ERROR_OK
) {
1891 LOG_ERROR("<-- TARGET ERROR! Debug operations do not finish properly: "
1892 "0x%08" PRIx32
"0x%08" PRIx32
"0x%08" PRIx32
"0x%08" PRIx32
". -->",
1903 static int aice_read_reg(uint32_t coreid
, uint32_t num
, uint32_t *val
)
1905 LOG_DEBUG("aice_read_reg, reg_no: 0x%08" PRIx32
, num
);
1907 uint32_t instructions
[4]; /** execute instructions in DIM */
1909 if (NDS32_REG_TYPE_GPR
== nds32_reg_type(num
)) { /* general registers */
1910 instructions
[0] = MTSR_DTR(num
);
1911 instructions
[1] = DSB
;
1912 instructions
[2] = NOP
;
1913 instructions
[3] = BEQ_MINUS_12
;
1914 } else if (NDS32_REG_TYPE_SPR
== nds32_reg_type(num
)) { /* user special registers */
1915 instructions
[0] = MFUSR_G0(0, nds32_reg_sr_index(num
));
1916 instructions
[1] = MTSR_DTR(0);
1917 instructions
[2] = DSB
;
1918 instructions
[3] = BEQ_MINUS_12
;
1919 } else if (NDS32_REG_TYPE_AUMR
== nds32_reg_type(num
)) { /* audio registers */
1920 if ((CB_CTL
<= num
) && (num
<= CBE3
)) {
1921 instructions
[0] = AMFAR2(0, nds32_reg_sr_index(num
));
1922 instructions
[1] = MTSR_DTR(0);
1923 instructions
[2] = DSB
;
1924 instructions
[3] = BEQ_MINUS_12
;
1926 instructions
[0] = AMFAR(0, nds32_reg_sr_index(num
));
1927 instructions
[1] = MTSR_DTR(0);
1928 instructions
[2] = DSB
;
1929 instructions
[3] = BEQ_MINUS_12
;
1931 } else if (NDS32_REG_TYPE_FPU
== nds32_reg_type(num
)) { /* fpu registers */
1933 instructions
[0] = FMFCSR
;
1934 instructions
[1] = MTSR_DTR(0);
1935 instructions
[2] = DSB
;
1936 instructions
[3] = BEQ_MINUS_12
;
1937 } else if (FPCFG
== num
) {
1938 instructions
[0] = FMFCFG
;
1939 instructions
[1] = MTSR_DTR(0);
1940 instructions
[2] = DSB
;
1941 instructions
[3] = BEQ_MINUS_12
;
1943 if (FS0
<= num
&& num
<= FS31
) { /* single precision */
1944 instructions
[0] = FMFSR(0, nds32_reg_sr_index(num
));
1945 instructions
[1] = MTSR_DTR(0);
1946 instructions
[2] = DSB
;
1947 instructions
[3] = BEQ_MINUS_12
;
1948 } else if (FD0
<= num
&& num
<= FD31
) { /* double precision */
1949 instructions
[0] = FMFDR(0, nds32_reg_sr_index(num
));
1950 instructions
[1] = MTSR_DTR(0);
1951 instructions
[2] = DSB
;
1952 instructions
[3] = BEQ_MINUS_12
;
1955 } else { /* system registers */
1956 instructions
[0] = MFSR(0, nds32_reg_sr_index(num
));
1957 instructions
[1] = MTSR_DTR(0);
1958 instructions
[2] = DSB
;
1959 instructions
[3] = BEQ_MINUS_12
;
1962 aice_execute_dim(coreid
, instructions
, 4);
1964 uint32_t value_edmsw
;
1965 aice_read_edmsr(coreid
, NDS_EDM_SR_EDMSW
, &value_edmsw
);
1966 if (value_edmsw
& NDS_EDMSW_WDV
)
1967 aice_read_dtr(coreid
, val
);
1969 LOG_ERROR("<-- TARGET ERROR! The debug target failed to update "
1970 "the DTR register. -->");
1977 static int aice_usb_read_reg(uint32_t coreid
, uint32_t num
, uint32_t *val
)
1979 LOG_DEBUG("aice_usb_read_reg");
1982 *val
= core_info
[coreid
].r0_backup
;
1983 } else if (num
== R1
) {
1984 *val
= core_info
[coreid
].r1_backup
;
1985 } else if (num
== DR41
) {
1986 /* As target is halted, OpenOCD will backup DR41/DR42/DR43.
1987 * As user wants to read these registers, OpenOCD should return
1988 * the backup values, instead of reading the real values.
1989 * As user wants to write these registers, OpenOCD should write
1990 * to the backup values, instead of writing to real registers. */
1991 *val
= core_info
[coreid
].edmsw_backup
;
1992 } else if (num
== DR42
) {
1993 *val
= core_info
[coreid
].edm_ctl_backup
;
1994 } else if ((core_info
[coreid
].target_dtr_valid
== true) && (num
== DR43
)) {
1995 *val
= core_info
[coreid
].target_dtr_backup
;
1997 if (ERROR_OK
!= aice_read_reg(coreid
, num
, val
))
2004 static int aice_write_reg(uint32_t coreid
, uint32_t num
, uint32_t val
)
2006 LOG_DEBUG("aice_write_reg, reg_no: 0x%08" PRIx32
", value: 0x%08" PRIx32
, num
, val
);
2008 uint32_t instructions
[4]; /** execute instructions in DIM */
2009 uint32_t value_edmsw
;
2011 aice_write_dtr(coreid
, val
);
2012 aice_read_edmsr(coreid
, NDS_EDM_SR_EDMSW
, &value_edmsw
);
2013 if (0 == (value_edmsw
& NDS_EDMSW_RDV
)) {
2014 LOG_ERROR("<-- TARGET ERROR! AICE failed to write to the DTR register. -->");
2018 if (NDS32_REG_TYPE_GPR
== nds32_reg_type(num
)) { /* general registers */
2019 instructions
[0] = MFSR_DTR(num
);
2020 instructions
[1] = DSB
;
2021 instructions
[2] = NOP
;
2022 instructions
[3] = BEQ_MINUS_12
;
2023 } else if (NDS32_REG_TYPE_SPR
== nds32_reg_type(num
)) { /* user special registers */
2024 instructions
[0] = MFSR_DTR(0);
2025 instructions
[1] = MTUSR_G0(0, nds32_reg_sr_index(num
));
2026 instructions
[2] = DSB
;
2027 instructions
[3] = BEQ_MINUS_12
;
2028 } else if (NDS32_REG_TYPE_AUMR
== nds32_reg_type(num
)) { /* audio registers */
2029 if ((CB_CTL
<= num
) && (num
<= CBE3
)) {
2030 instructions
[0] = MFSR_DTR(0);
2031 instructions
[1] = AMTAR2(0, nds32_reg_sr_index(num
));
2032 instructions
[2] = DSB
;
2033 instructions
[3] = BEQ_MINUS_12
;
2035 instructions
[0] = MFSR_DTR(0);
2036 instructions
[1] = AMTAR(0, nds32_reg_sr_index(num
));
2037 instructions
[2] = DSB
;
2038 instructions
[3] = BEQ_MINUS_12
;
2040 } else if (NDS32_REG_TYPE_FPU
== nds32_reg_type(num
)) { /* fpu registers */
2042 instructions
[0] = MFSR_DTR(0);
2043 instructions
[1] = FMTCSR
;
2044 instructions
[2] = DSB
;
2045 instructions
[3] = BEQ_MINUS_12
;
2046 } else if (FPCFG
== num
) {
2047 /* FPCFG is readonly */
2049 if (FS0
<= num
&& num
<= FS31
) { /* single precision */
2050 instructions
[0] = MFSR_DTR(0);
2051 instructions
[1] = FMTSR(0, nds32_reg_sr_index(num
));
2052 instructions
[2] = DSB
;
2053 instructions
[3] = BEQ_MINUS_12
;
2054 } else if (FD0
<= num
&& num
<= FD31
) { /* double precision */
2055 instructions
[0] = MFSR_DTR(0);
2056 instructions
[1] = FMTDR(0, nds32_reg_sr_index(num
));
2057 instructions
[2] = DSB
;
2058 instructions
[3] = BEQ_MINUS_12
;
2062 instructions
[0] = MFSR_DTR(0);
2063 instructions
[1] = MTSR(0, nds32_reg_sr_index(num
));
2064 instructions
[2] = DSB
;
2065 instructions
[3] = BEQ_MINUS_12
;
2068 return aice_execute_dim(coreid
, instructions
, 4);
2071 static int aice_usb_write_reg(uint32_t coreid
, uint32_t num
, uint32_t val
)
2073 LOG_DEBUG("aice_usb_write_reg");
2076 core_info
[coreid
].r0_backup
= val
;
2078 core_info
[coreid
].r1_backup
= val
;
2079 else if (num
== DR42
)
2080 /* As target is halted, OpenOCD will backup DR41/DR42/DR43.
2081 * As user wants to read these registers, OpenOCD should return
2082 * the backup values, instead of reading the real values.
2083 * As user wants to write these registers, OpenOCD should write
2084 * to the backup values, instead of writing to real registers. */
2085 core_info
[coreid
].edm_ctl_backup
= val
;
2086 else if ((core_info
[coreid
].target_dtr_valid
== true) && (num
== DR43
))
2087 core_info
[coreid
].target_dtr_backup
= val
;
2089 return aice_write_reg(coreid
, num
, val
);
2094 static int aice_usb_open(struct aice_port_param_s
*param
)
2096 const uint16_t vids
[] = { param
->vid
, 0 };
2097 const uint16_t pids
[] = { param
->pid
, 0 };
2098 struct jtag_libusb_device_handle
*devh
;
2100 if (jtag_libusb_open(vids
, pids
, NULL
, &devh
) != ERROR_OK
)
2103 /* BE ***VERY CAREFUL*** ABOUT MAKING CHANGES IN THIS
2104 * AREA!!!!!!!!!!! The behavior of libusb is not completely
2105 * consistent across Windows, Linux, and Mac OS X platforms.
2106 * The actions taken in the following compiler conditionals may
2107 * not agree with published documentation for libusb, but were
2108 * found to be necessary through trials and tribulations. Even
2109 * little tweaks can break one or more platforms, so if you do
2110 * make changes test them carefully on all platforms before
2116 jtag_libusb_reset_device(devh
);
2121 /* reopen jlink after usb_reset
2122 * on win32 this may take a second or two to re-enumerate */
2124 while ((retval
= jtag_libusb_open(vids
, pids
, NULL
, &devh
)) != ERROR_OK
) {
2130 if (ERROR_OK
!= retval
)
2136 /* usb_set_configuration required under win32 */
2137 jtag_libusb_set_configuration(devh
, 0);
2138 jtag_libusb_claim_interface(devh
, 0);
2140 unsigned int aice_read_ep
;
2141 unsigned int aice_write_ep
;
2143 jtag_libusb_choose_interface(devh
, &aice_read_ep
, &aice_write_ep
, -1, -1, -1, LIBUSB_TRANSFER_TYPE_BULK
);
2145 jtag_libusb_choose_interface(devh
, &aice_read_ep
, &aice_write_ep
, -1, -1, -1, USB_ENDPOINT_TYPE_BULK
);
2147 LOG_DEBUG("aice_read_ep=0x%x, aice_write_ep=0x%x", aice_read_ep
, aice_write_ep
);
2149 aice_handler
.usb_read_ep
= aice_read_ep
;
2150 aice_handler
.usb_write_ep
= aice_write_ep
;
2151 aice_handler
.usb_handle
= devh
;
2156 static int aice_usb_read_reg_64(uint32_t coreid
, uint32_t num
, uint64_t *val
)
2158 LOG_DEBUG("aice_usb_read_reg_64, %s", nds32_reg_simple_name(num
));
2161 uint32_t high_value
;
2163 if (ERROR_OK
!= aice_read_reg(coreid
, num
, &value
))
2166 aice_read_reg(coreid
, R1
, &high_value
);
2168 LOG_DEBUG("low: 0x%08" PRIx32
", high: 0x%08" PRIx32
"\n", value
, high_value
);
2170 if (data_endian
== AICE_BIG_ENDIAN
)
2171 *val
= (((uint64_t)high_value
) << 32) | value
;
2173 *val
= (((uint64_t)value
) << 32) | high_value
;
2178 static int aice_usb_write_reg_64(uint32_t coreid
, uint32_t num
, uint64_t val
)
2181 uint32_t high_value
;
2183 if (data_endian
== AICE_BIG_ENDIAN
) {
2184 value
= val
& 0xFFFFFFFF;
2185 high_value
= (val
>> 32) & 0xFFFFFFFF;
2187 high_value
= val
& 0xFFFFFFFF;
2188 value
= (val
>> 32) & 0xFFFFFFFF;
2191 LOG_DEBUG("aice_usb_write_reg_64, %s, low: 0x%08" PRIx32
", high: 0x%08" PRIx32
"\n",
2192 nds32_reg_simple_name(num
), value
, high_value
);
2194 aice_write_reg(coreid
, R1
, high_value
);
2195 return aice_write_reg(coreid
, num
, value
);
2198 static int aice_get_version_info(void)
2200 uint32_t hardware_version
;
2201 uint32_t firmware_version
;
2202 uint32_t fpga_version
;
2204 if (aice_read_ctrl(AICE_READ_CTRL_GET_HARDWARE_VERSION
, &hardware_version
) != ERROR_OK
)
2207 if (aice_read_ctrl(AICE_READ_CTRL_GET_FIRMWARE_VERSION
, &firmware_version
) != ERROR_OK
)
2210 if (aice_read_ctrl(AICE_READ_CTRL_GET_FPGA_VERSION
, &fpga_version
) != ERROR_OK
)
2213 LOG_INFO("AICE version: hw_ver = 0x%" PRIx32
", fw_ver = 0x%" PRIx32
", fpga_ver = 0x%" PRIx32
,
2214 hardware_version
, firmware_version
, fpga_version
);
2219 #define LINE_BUFFER_SIZE 1024
2221 static int aice_execute_custom_script(const char *script
)
2224 char line_buffer
[LINE_BUFFER_SIZE
];
2228 uint32_t write_ctrl_value
;
2231 script_fd
= fopen(script
, "r");
2232 if (script_fd
== NULL
) {
2235 while (fgets(line_buffer
, LINE_BUFFER_SIZE
, script_fd
) != NULL
) {
2236 /* execute operations */
2238 op_str
= strstr(line_buffer
, "set");
2239 if (op_str
!= NULL
) {
2241 goto get_reset_type
;
2244 op_str
= strstr(line_buffer
, "clear");
2248 reset_str
= strstr(op_str
, "srst");
2249 if (reset_str
!= NULL
) {
2251 write_ctrl_value
= AICE_CUSTOM_DELAY_SET_SRST
;
2253 write_ctrl_value
= AICE_CUSTOM_DELAY_CLEAN_SRST
;
2256 reset_str
= strstr(op_str
, "dbgi");
2257 if (reset_str
!= NULL
) {
2259 write_ctrl_value
= AICE_CUSTOM_DELAY_SET_DBGI
;
2261 write_ctrl_value
= AICE_CUSTOM_DELAY_CLEAN_DBGI
;
2264 reset_str
= strstr(op_str
, "trst");
2265 if (reset_str
!= NULL
) {
2267 write_ctrl_value
= AICE_CUSTOM_DELAY_SET_TRST
;
2269 write_ctrl_value
= AICE_CUSTOM_DELAY_CLEAN_TRST
;
2275 delay
= strtoul(reset_str
+ 4, NULL
, 0);
2276 write_ctrl_value
|= (delay
<< 16);
2278 if (aice_write_ctrl(AICE_WRITE_CTRL_CUSTOM_DELAY
,
2279 write_ctrl_value
) != ERROR_OK
) {
2290 static int aice_usb_set_clock(int set_clock
)
2292 if (set_clock
& AICE_TCK_CONTROL_TCK_SCAN
) {
2293 if (aice_write_ctrl(AICE_WRITE_CTRL_TCK_CONTROL
,
2294 AICE_TCK_CONTROL_TCK_SCAN
) != ERROR_OK
)
2297 /* Read out TCK_SCAN clock value */
2298 uint32_t scan_clock
;
2299 if (aice_read_ctrl(AICE_READ_CTRL_GET_ICE_STATE
, &scan_clock
) != ERROR_OK
)
2304 uint32_t scan_base_freq
;
2305 if (scan_clock
& 0x8)
2306 scan_base_freq
= 48000; /* 48 MHz */
2308 scan_base_freq
= 30000; /* 30 MHz */
2310 uint32_t set_base_freq
;
2311 if (set_clock
& 0x8)
2312 set_base_freq
= 48000;
2314 set_base_freq
= 30000;
2318 set_freq
= set_base_freq
>> (set_clock
& 0x7);
2319 scan_freq
= scan_base_freq
>> (scan_clock
& 0x7);
2321 if (scan_freq
< set_freq
) {
2322 LOG_ERROR("User specifies higher jtag clock than TCK_SCAN clock");
2327 if (aice_write_ctrl(AICE_WRITE_CTRL_TCK_CONTROL
, set_clock
) != ERROR_OK
)
2330 uint32_t check_speed
;
2331 if (aice_read_ctrl(AICE_READ_CTRL_GET_ICE_STATE
, &check_speed
) != ERROR_OK
)
2334 if (((int)check_speed
& 0x0F) != set_clock
) {
2335 LOG_ERROR("Set jtag clock failed");
2342 static int aice_edm_init(uint32_t coreid
)
2344 aice_write_edmsr(coreid
, NDS_EDM_SR_DIMBR
, 0xFFFF0000);
2345 aice_write_misc(coreid
, NDS_EDM_MISC_DIMIR
, 0);
2347 /* unconditionally try to turn on V3_EDM_MODE */
2348 uint32_t edm_ctl_value
;
2349 aice_read_edmsr(coreid
, NDS_EDM_SR_EDM_CTL
, &edm_ctl_value
);
2350 aice_write_edmsr(coreid
, NDS_EDM_SR_EDM_CTL
, edm_ctl_value
| 0x00000040);
2353 aice_write_misc(coreid
, NDS_EDM_MISC_DBGER
,
2354 NDS_DBGER_DPED
| NDS_DBGER_CRST
| NDS_DBGER_AT_MAX
);
2356 /* get EDM version */
2357 uint32_t value_edmcfg
;
2358 aice_read_edmsr(coreid
, NDS_EDM_SR_EDM_CFG
, &value_edmcfg
);
2359 core_info
[coreid
].edm_version
= (value_edmcfg
>> 16) & 0xFFFF;
2364 static bool is_v2_edm(uint32_t coreid
)
2366 if ((core_info
[coreid
].edm_version
& 0x1000) == 0)
2372 static int aice_init_edm_registers(uint32_t coreid
, bool clear_dex_use_psw
)
2374 /* enable DEH_SEL & MAX_STOP & V3_EDM_MODE & DBGI_MASK */
2375 uint32_t host_edm_ctl
= core_info
[coreid
].edm_ctl_backup
| 0xA000004F;
2376 if (clear_dex_use_psw
)
2377 /* After entering debug mode, OpenOCD may set
2378 * DEX_USE_PSW accidentally through backup value
2379 * of target EDM_CTL.
2380 * So, clear DEX_USE_PSW by force. */
2381 host_edm_ctl
&= ~(0x40000000);
2383 LOG_DEBUG("aice_init_edm_registers - EDM_CTL: 0x%08" PRIx32
, host_edm_ctl
);
2385 int result
= aice_write_edmsr(coreid
, NDS_EDM_SR_EDM_CTL
, host_edm_ctl
);
2391 * EDM_CTL will be modified by OpenOCD as debugging. OpenOCD has the
2392 * responsibility to keep EDM_CTL untouched after debugging.
2394 * There are two scenarios to consider:
2395 * 1. single step/running as debugging (running under debug session)
2396 * 2. detached from gdb (exit debug session)
2398 * So, we need to bakcup EDM_CTL before halted and restore it after
2399 * running. The difference of these two scenarios is EDM_CTL.DEH_SEL
2400 * is on for scenario 1, and off for scenario 2.
2402 static int aice_backup_edm_registers(uint32_t coreid
)
2404 int result
= aice_read_edmsr(coreid
, NDS_EDM_SR_EDM_CTL
,
2405 &core_info
[coreid
].edm_ctl_backup
);
2407 /* To call aice_backup_edm_registers() after DEX on, DEX_USE_PSW
2408 * may be not correct. (For example, hit breakpoint, then backup
2409 * EDM_CTL. EDM_CTL.DEX_USE_PSW will be cleared.) Because debug
2410 * interrupt will clear DEX_USE_PSW, DEX_USE_PSW is always off after
2411 * DEX is on. It only backups correct value before OpenOCD issues DBGI.
2412 * (Backup EDM_CTL, then issue DBGI actively (refer aice_usb_halt())) */
2413 if (core_info
[coreid
].edm_ctl_backup
& 0x40000000)
2414 core_info
[coreid
].dex_use_psw_on
= true;
2416 core_info
[coreid
].dex_use_psw_on
= false;
2418 LOG_DEBUG("aice_backup_edm_registers - EDM_CTL: 0x%08" PRIx32
", DEX_USE_PSW: %s",
2419 core_info
[coreid
].edm_ctl_backup
,
2420 core_info
[coreid
].dex_use_psw_on
? "on" : "off");
2425 static int aice_restore_edm_registers(uint32_t coreid
)
2427 LOG_DEBUG("aice_restore_edm_registers -");
2429 /* set DEH_SEL, because target still under EDM control */
2430 int result
= aice_write_edmsr(coreid
, NDS_EDM_SR_EDM_CTL
,
2431 core_info
[coreid
].edm_ctl_backup
| 0x80000000);
2436 static int aice_backup_tmp_registers(uint32_t coreid
)
2438 LOG_DEBUG("backup_tmp_registers -");
2440 /* backup target DTR first(if the target DTR is valid) */
2441 uint32_t value_edmsw
;
2442 aice_read_edmsr(coreid
, NDS_EDM_SR_EDMSW
, &value_edmsw
);
2443 core_info
[coreid
].edmsw_backup
= value_edmsw
;
2444 if (value_edmsw
& 0x1) { /* EDMSW.WDV == 1 */
2445 aice_read_dtr(coreid
, &core_info
[coreid
].target_dtr_backup
);
2446 core_info
[coreid
].target_dtr_valid
= true;
2448 LOG_DEBUG("Backup target DTR: 0x%08" PRIx32
, core_info
[coreid
].target_dtr_backup
);
2450 core_info
[coreid
].target_dtr_valid
= false;
2453 /* Target DTR has been backup, then backup $R0 and $R1 */
2454 aice_read_reg(coreid
, R0
, &core_info
[coreid
].r0_backup
);
2455 aice_read_reg(coreid
, R1
, &core_info
[coreid
].r1_backup
);
2457 /* backup host DTR(if the host DTR is valid) */
2458 if (value_edmsw
& 0x2) { /* EDMSW.RDV == 1*/
2459 /* read out host DTR and write into target DTR, then use aice_read_edmsr to
2461 uint32_t instructions
[4] = {
2462 MFSR_DTR(R0
), /* R0 has already been backup */
2467 aice_execute_dim(coreid
, instructions
, 4);
2469 aice_read_dtr(coreid
, &core_info
[coreid
].host_dtr_backup
);
2470 core_info
[coreid
].host_dtr_valid
= true;
2472 LOG_DEBUG("Backup host DTR: 0x%08" PRIx32
, core_info
[coreid
].host_dtr_backup
);
2474 core_info
[coreid
].host_dtr_valid
= false;
2477 LOG_DEBUG("r0: 0x%08" PRIx32
", r1: 0x%08" PRIx32
,
2478 core_info
[coreid
].r0_backup
, core_info
[coreid
].r1_backup
);
2483 static int aice_restore_tmp_registers(uint32_t coreid
)
2485 LOG_DEBUG("restore_tmp_registers - r0: 0x%08" PRIx32
", r1: 0x%08" PRIx32
,
2486 core_info
[coreid
].r0_backup
, core_info
[coreid
].r1_backup
);
2488 if (core_info
[coreid
].target_dtr_valid
) {
2489 uint32_t instructions
[4] = {
2490 SETHI(R0
, core_info
[coreid
].target_dtr_backup
>> 12),
2491 ORI(R0
, R0
, core_info
[coreid
].target_dtr_backup
& 0x00000FFF),
2495 aice_execute_dim(coreid
, instructions
, 4);
2497 instructions
[0] = MTSR_DTR(R0
);
2498 instructions
[1] = DSB
;
2499 instructions
[2] = NOP
;
2500 instructions
[3] = BEQ_MINUS_12
;
2501 aice_execute_dim(coreid
, instructions
, 4);
2503 LOG_DEBUG("Restore target DTR: 0x%08" PRIx32
, core_info
[coreid
].target_dtr_backup
);
2506 aice_write_reg(coreid
, R0
, core_info
[coreid
].r0_backup
);
2507 aice_write_reg(coreid
, R1
, core_info
[coreid
].r1_backup
);
2509 if (core_info
[coreid
].host_dtr_valid
) {
2510 aice_write_dtr(coreid
, core_info
[coreid
].host_dtr_backup
);
2512 LOG_DEBUG("Restore host DTR: 0x%08" PRIx32
, core_info
[coreid
].host_dtr_backup
);
2518 static int aice_open_device(struct aice_port_param_s
*param
)
2520 if (ERROR_OK
!= aice_usb_open(param
))
2523 if (ERROR_FAIL
== aice_get_version_info()) {
2524 LOG_ERROR("Cannot get AICE version!");
2528 LOG_INFO("AICE initialization started");
2530 /* attempt to reset Andes EDM */
2531 if (ERROR_FAIL
== aice_reset_box()) {
2532 LOG_ERROR("Cannot initial AICE box!");
2539 static int aice_usb_set_jtag_clock(uint32_t a_clock
)
2541 jtag_clock
= a_clock
;
2543 if (ERROR_OK
!= aice_usb_set_clock(a_clock
)) {
2544 LOG_ERROR("Cannot set AICE JTAG clock!");
2551 static int aice_usb_close(void)
2553 jtag_libusb_close(aice_handler
.usb_handle
);
2555 if (custom_srst_script
)
2556 free(custom_srst_script
);
2558 if (custom_trst_script
)
2559 free(custom_trst_script
);
2561 if (custom_restart_script
)
2562 free(custom_restart_script
);
2567 static int aice_core_init(uint32_t coreid
)
2569 core_info
[coreid
].access_channel
= NDS_MEMORY_ACC_CPU
;
2570 core_info
[coreid
].memory_select
= NDS_MEMORY_SELECT_AUTO
;
2571 core_info
[coreid
].core_state
= AICE_TARGET_UNKNOWN
;
2576 static int aice_usb_idcode(uint32_t *idcode
, uint8_t *num_of_idcode
)
2580 retval
= aice_scan_chain(idcode
, num_of_idcode
);
2581 if (ERROR_OK
== retval
) {
2582 for (int i
= 0; i
< *num_of_idcode
; i
++) {
2586 total_num_of_core
= *num_of_idcode
;
2592 static int aice_usb_halt(uint32_t coreid
)
2594 if (core_info
[coreid
].core_state
== AICE_TARGET_HALTED
) {
2595 LOG_DEBUG("aice_usb_halt check halted");
2599 LOG_DEBUG("aice_usb_halt");
2601 /** backup EDM registers */
2602 aice_backup_edm_registers(coreid
);
2603 /** init EDM for host debugging */
2604 /** no need to clear dex_use_psw, because dbgi will clear it */
2605 aice_init_edm_registers(coreid
, false);
2607 /** Clear EDM_CTL.DBGIM & EDM_CTL.DBGACKM */
2608 uint32_t edm_ctl_value
;
2609 aice_read_edmsr(coreid
, NDS_EDM_SR_EDM_CTL
, &edm_ctl_value
);
2610 if (edm_ctl_value
& 0x3)
2611 aice_write_edmsr(coreid
, NDS_EDM_SR_EDM_CTL
, edm_ctl_value
& ~(0x3));
2614 uint32_t acc_ctl_value
;
2616 core_info
[coreid
].debug_under_dex_on
= false;
2617 aice_read_misc(coreid
, NDS_EDM_MISC_DBGER
, &dbger
);
2619 if (dbger
& NDS_DBGER_AT_MAX
)
2620 LOG_ERROR("<-- TARGET ERROR! Reaching the max interrupt stack level. -->");
2622 if (dbger
& NDS_DBGER_DEX
) {
2623 if (is_v2_edm(coreid
) == false) {
2624 /** debug 'debug mode'. use force_debug to issue dbgi */
2625 aice_read_misc(coreid
, NDS_EDM_MISC_ACC_CTL
, &acc_ctl_value
);
2626 acc_ctl_value
|= 0x8;
2627 aice_write_misc(coreid
, NDS_EDM_MISC_ACC_CTL
, acc_ctl_value
);
2628 core_info
[coreid
].debug_under_dex_on
= true;
2630 aice_write_misc(coreid
, NDS_EDM_MISC_EDM_CMDR
, 0);
2631 /* If CPU stalled due to AT_MAX, clear AT_MAX status. */
2632 if (dbger
& NDS_DBGER_AT_MAX
)
2633 aice_write_misc(coreid
, NDS_EDM_MISC_DBGER
, NDS_DBGER_AT_MAX
);
2636 /** Issue DBGI normally */
2637 aice_write_misc(coreid
, NDS_EDM_MISC_EDM_CMDR
, 0);
2638 /* If CPU stalled due to AT_MAX, clear AT_MAX status. */
2639 if (dbger
& NDS_DBGER_AT_MAX
)
2640 aice_write_misc(coreid
, NDS_EDM_MISC_DBGER
, NDS_DBGER_AT_MAX
);
2643 if (aice_check_dbger(coreid
, NDS_DBGER_DEX
) != ERROR_OK
) {
2644 LOG_ERROR("<-- TARGET ERROR! Unable to stop the debug target through DBGI. -->");
2648 if (core_info
[coreid
].debug_under_dex_on
) {
2649 if (core_info
[coreid
].dex_use_psw_on
== false) {
2650 /* under debug 'debug mode', force $psw to 'debug mode' bahavior */
2651 /* !!!NOTICE!!! this is workaround for debug 'debug mode'.
2652 * it is only for debugging 'debug exception handler' purpose.
2653 * after openocd detaches from target, target behavior is
2656 uint32_t debug_mode_ir0_value
;
2657 aice_read_reg(coreid
, IR0
, &ir0_value
);
2658 debug_mode_ir0_value
= ir0_value
| 0x408; /* turn on DEX, set POM = 1 */
2659 debug_mode_ir0_value
&= ~(0x000000C1); /* turn off DT/IT/GIE */
2660 aice_write_reg(coreid
, IR0
, debug_mode_ir0_value
);
2664 /** set EDM_CTL.DBGIM & EDM_CTL.DBGACKM after halt */
2665 if (edm_ctl_value
& 0x3)
2666 aice_write_edmsr(coreid
, NDS_EDM_SR_EDM_CTL
, edm_ctl_value
);
2668 /* backup r0 & r1 */
2669 aice_backup_tmp_registers(coreid
);
2670 core_info
[coreid
].core_state
= AICE_TARGET_HALTED
;
2675 static int aice_usb_state(uint32_t coreid
, enum aice_target_state_s
*state
)
2677 uint32_t dbger_value
;
2680 int result
= aice_read_misc(coreid
, NDS_EDM_MISC_DBGER
, &dbger_value
);
2682 if (ERROR_AICE_TIMEOUT
== result
) {
2683 if (aice_read_ctrl(AICE_READ_CTRL_GET_ICE_STATE
, &ice_state
) != ERROR_OK
) {
2684 LOG_ERROR("<-- AICE ERROR! AICE is unplugged. -->");
2688 if ((ice_state
& 0x20) == 0) {
2689 LOG_ERROR("<-- TARGET ERROR! Target is disconnected with AICE. -->");
2694 } else if (ERROR_AICE_DISCONNECT
== result
) {
2695 LOG_ERROR("<-- AICE ERROR! AICE is unplugged. -->");
2699 if ((dbger_value
& NDS_DBGER_ILL_SEC_ACC
) == NDS_DBGER_ILL_SEC_ACC
) {
2700 LOG_ERROR("<-- TARGET ERROR! Insufficient security privilege. -->");
2702 /* Clear ILL_SEC_ACC */
2703 aice_write_misc(coreid
, NDS_EDM_MISC_DBGER
, NDS_DBGER_ILL_SEC_ACC
);
2705 *state
= AICE_TARGET_RUNNING
;
2706 core_info
[coreid
].core_state
= AICE_TARGET_RUNNING
;
2707 } else if ((dbger_value
& NDS_DBGER_AT_MAX
) == NDS_DBGER_AT_MAX
) {
2708 /* Issue DBGI to exit cpu stall */
2709 aice_usb_halt(coreid
);
2711 /* Read OIPC to find out the trigger point */
2712 uint32_t ir11_value
;
2713 aice_read_reg(coreid
, IR11
, &ir11_value
);
2715 LOG_ERROR("<-- TARGET ERROR! Reaching the max interrupt stack level; "
2716 "CPU is stalled at 0x%08" PRIx32
" for debugging. -->", ir11_value
);
2718 *state
= AICE_TARGET_HALTED
;
2719 } else if ((dbger_value
& NDS_DBGER_CRST
) == NDS_DBGER_CRST
) {
2720 LOG_DEBUG("DBGER.CRST is on.");
2722 *state
= AICE_TARGET_RESET
;
2723 core_info
[coreid
].core_state
= AICE_TARGET_RUNNING
;
2726 aice_write_misc(coreid
, NDS_EDM_MISC_DBGER
, NDS_DBGER_CRST
);
2727 } else if ((dbger_value
& NDS_DBGER_DEX
) == NDS_DBGER_DEX
) {
2728 if (AICE_TARGET_RUNNING
== core_info
[coreid
].core_state
) {
2729 /* enter debug mode, init EDM registers */
2730 /* backup EDM registers */
2731 aice_backup_edm_registers(coreid
);
2732 /* init EDM for host debugging */
2733 aice_init_edm_registers(coreid
, true);
2734 aice_backup_tmp_registers(coreid
);
2735 core_info
[coreid
].core_state
= AICE_TARGET_HALTED
;
2736 } else if (AICE_TARGET_UNKNOWN
== core_info
[coreid
].core_state
) {
2737 /* debug 'debug mode', use force debug to halt core */
2738 aice_usb_halt(coreid
);
2740 *state
= AICE_TARGET_HALTED
;
2742 *state
= AICE_TARGET_RUNNING
;
2743 core_info
[coreid
].core_state
= AICE_TARGET_RUNNING
;
2749 static int aice_usb_reset(void)
2751 if (aice_reset_box() != ERROR_OK
)
2755 if (custom_trst_script
== NULL
) {
2756 if (aice_write_ctrl(AICE_WRITE_CTRL_JTAG_PIN_CONTROL
,
2757 AICE_JTAG_PIN_CONTROL_TRST
) != ERROR_OK
)
2760 /* custom trst operations */
2761 if (aice_execute_custom_script(custom_trst_script
) != ERROR_OK
)
2765 if (aice_usb_set_clock(jtag_clock
) != ERROR_OK
)
2771 static int aice_issue_srst(uint32_t coreid
)
2773 LOG_DEBUG("aice_issue_srst");
2775 /* After issuing srst, target will be running. So we need to restore EDM_CTL. */
2776 aice_restore_edm_registers(coreid
);
2778 if (custom_srst_script
== NULL
) {
2779 if (aice_write_ctrl(AICE_WRITE_CTRL_JTAG_PIN_CONTROL
,
2780 AICE_JTAG_PIN_CONTROL_SRST
) != ERROR_OK
)
2783 /* custom srst operations */
2784 if (aice_execute_custom_script(custom_srst_script
) != ERROR_OK
)
2788 /* wait CRST infinitely */
2789 uint32_t dbger_value
;
2792 if (aice_read_misc(coreid
,
2793 NDS_EDM_MISC_DBGER
, &dbger_value
) != ERROR_OK
)
2796 if (dbger_value
& NDS_DBGER_CRST
)
2804 core_info
[coreid
].host_dtr_valid
= false;
2805 core_info
[coreid
].target_dtr_valid
= false;
2807 core_info
[coreid
].core_state
= AICE_TARGET_RUNNING
;
2811 static int aice_issue_reset_hold(uint32_t coreid
)
2813 LOG_DEBUG("aice_issue_reset_hold");
2815 /* set no_dbgi_pin to 0 */
2816 uint32_t pin_status
;
2817 aice_read_ctrl(AICE_READ_CTRL_GET_JTAG_PIN_STATUS
, &pin_status
);
2818 if (pin_status
| 0x4)
2819 aice_write_ctrl(AICE_WRITE_CTRL_JTAG_PIN_STATUS
, pin_status
& (~0x4));
2822 if (custom_restart_script
== NULL
) {
2823 if (aice_write_ctrl(AICE_WRITE_CTRL_JTAG_PIN_CONTROL
,
2824 AICE_JTAG_PIN_CONTROL_RESTART
) != ERROR_OK
)
2827 /* custom restart operations */
2828 if (aice_execute_custom_script(custom_restart_script
) != ERROR_OK
)
2832 if (aice_check_dbger(coreid
, NDS_DBGER_CRST
| NDS_DBGER_DEX
) == ERROR_OK
) {
2833 aice_backup_tmp_registers(coreid
);
2834 core_info
[coreid
].core_state
= AICE_TARGET_HALTED
;
2838 /* set no_dbgi_pin to 1 */
2839 aice_write_ctrl(AICE_WRITE_CTRL_JTAG_PIN_STATUS
, pin_status
| 0x4);
2841 /* issue restart again */
2842 if (custom_restart_script
== NULL
) {
2843 if (aice_write_ctrl(AICE_WRITE_CTRL_JTAG_PIN_CONTROL
,
2844 AICE_JTAG_PIN_CONTROL_RESTART
) != ERROR_OK
)
2847 /* custom restart operations */
2848 if (aice_execute_custom_script(custom_restart_script
) != ERROR_OK
)
2852 if (aice_check_dbger(coreid
, NDS_DBGER_CRST
| NDS_DBGER_DEX
) == ERROR_OK
) {
2853 aice_backup_tmp_registers(coreid
);
2854 core_info
[coreid
].core_state
= AICE_TARGET_HALTED
;
2859 /* do software reset-and-hold */
2860 aice_issue_srst(coreid
);
2861 aice_usb_halt(coreid
);
2864 aice_read_reg(coreid
, IR3
, &value_ir3
);
2865 aice_write_reg(coreid
, PC
, value_ir3
& 0xFFFF0000);
2871 static int aice_issue_reset_hold_multi(void)
2873 uint32_t write_ctrl_value
= 0;
2876 write_ctrl_value
= AICE_CUSTOM_DELAY_SET_SRST
;
2877 write_ctrl_value
|= (0x200 << 16);
2878 if (aice_write_ctrl(AICE_WRITE_CTRL_CUSTOM_DELAY
,
2879 write_ctrl_value
) != ERROR_OK
)
2882 for (uint8_t i
= 0 ; i
< total_num_of_core
; i
++)
2883 aice_write_misc(i
, NDS_EDM_MISC_EDM_CMDR
, 0);
2886 write_ctrl_value
= AICE_CUSTOM_DELAY_CLEAN_SRST
;
2887 write_ctrl_value
|= (0x200 << 16);
2888 if (aice_write_ctrl(AICE_WRITE_CTRL_CUSTOM_DELAY
,
2889 write_ctrl_value
) != ERROR_OK
)
2892 for (uint8_t i
= 0; i
< total_num_of_core
; i
++)
2898 static int aice_usb_assert_srst(uint32_t coreid
, enum aice_srst_type_s srst
)
2900 if ((AICE_SRST
!= srst
) && (AICE_RESET_HOLD
!= srst
))
2904 if (aice_write_misc(coreid
, NDS_EDM_MISC_DBGER
,
2905 NDS_DBGER_CLEAR_ALL
) != ERROR_OK
)
2908 int result
= ERROR_OK
;
2909 if (AICE_SRST
== srst
)
2910 result
= aice_issue_srst(coreid
);
2912 if (1 == total_num_of_core
)
2913 result
= aice_issue_reset_hold(coreid
);
2915 result
= aice_issue_reset_hold_multi();
2918 /* Clear DBGER.CRST after reset to avoid 'core-reset checking' errors.
2919 * assert_srst is user-intentional reset behavior, so we could
2920 * clear DBGER.CRST safely.
2922 if (aice_write_misc(coreid
,
2923 NDS_EDM_MISC_DBGER
, NDS_DBGER_CRST
) != ERROR_OK
)
2929 static int aice_usb_run(uint32_t coreid
)
2931 LOG_DEBUG("aice_usb_run");
2933 uint32_t dbger_value
;
2934 if (aice_read_misc(coreid
,
2935 NDS_EDM_MISC_DBGER
, &dbger_value
) != ERROR_OK
)
2938 if ((dbger_value
& NDS_DBGER_DEX
) != NDS_DBGER_DEX
) {
2939 LOG_WARNING("<-- TARGET WARNING! The debug target exited "
2940 "the debug mode unexpectedly. -->");
2944 /* restore r0 & r1 before free run */
2945 aice_restore_tmp_registers(coreid
);
2946 core_info
[coreid
].core_state
= AICE_TARGET_RUNNING
;
2949 aice_write_misc(coreid
, NDS_EDM_MISC_DBGER
,
2950 NDS_DBGER_CLEAR_ALL
);
2952 /** restore EDM registers */
2953 /** OpenOCD should restore EDM_CTL **before** to exit debug state.
2954 * Otherwise, following instruction will read wrong EDM_CTL value.
2956 * pc -> mfsr $p0, EDM_CTL (single step)
2960 aice_restore_edm_registers(coreid
);
2962 /** execute instructions in DIM */
2963 uint32_t instructions
[4] = {
2969 int result
= aice_execute_dim(coreid
, instructions
, 4);
2974 static int aice_usb_step(uint32_t coreid
)
2976 LOG_DEBUG("aice_usb_step");
2979 uint32_t ir0_reg_num
;
2981 if (is_v2_edm(coreid
) == true)
2982 /* V2 EDM will push interrupt stack as debug exception */
2988 aice_read_reg(coreid
, ir0_reg_num
, &ir0_value
);
2989 if ((ir0_value
& 0x800) == 0) {
2991 ir0_value
|= (0x01 << 11);
2992 aice_write_reg(coreid
, ir0_reg_num
, ir0_value
);
2995 if (ERROR_FAIL
== aice_usb_run(coreid
))
2999 enum aice_target_state_s state
;
3002 if (aice_usb_state(coreid
, &state
) != ERROR_OK
)
3005 if (AICE_TARGET_HALTED
== state
)
3010 then
= timeval_ms();
3013 if ((timeval_ms() - then
) > 1000)
3014 LOG_WARNING("Timeout (1000ms) waiting for halt to complete");
3022 aice_read_reg(coreid
, ir0_reg_num
, &ir0_value
);
3023 ir0_value
&= ~(0x01 << 11);
3024 aice_write_reg(coreid
, ir0_reg_num
, ir0_value
);
3029 static int aice_usb_read_mem_b_bus(uint32_t coreid
, uint32_t address
, uint32_t *data
)
3031 return aice_read_mem_b(coreid
, address
, data
);
3034 static int aice_usb_read_mem_h_bus(uint32_t coreid
, uint32_t address
, uint32_t *data
)
3036 return aice_read_mem_h(coreid
, address
, data
);
3039 static int aice_usb_read_mem_w_bus(uint32_t coreid
, uint32_t address
, uint32_t *data
)
3041 return aice_read_mem(coreid
, address
, data
);
3044 static int aice_usb_read_mem_b_dim(uint32_t coreid
, uint32_t address
, uint32_t *data
)
3047 uint32_t instructions
[4] = {
3054 aice_execute_dim(coreid
, instructions
, 4);
3056 aice_read_dtr(coreid
, &value
);
3057 *data
= value
& 0xFF;
3062 static int aice_usb_read_mem_h_dim(uint32_t coreid
, uint32_t address
, uint32_t *data
)
3065 uint32_t instructions
[4] = {
3072 aice_execute_dim(coreid
, instructions
, 4);
3074 aice_read_dtr(coreid
, &value
);
3075 *data
= value
& 0xFFFF;
3080 static int aice_usb_read_mem_w_dim(uint32_t coreid
, uint32_t address
, uint32_t *data
)
3082 uint32_t instructions
[4] = {
3089 aice_execute_dim(coreid
, instructions
, 4);
3091 aice_read_dtr(coreid
, data
);
3096 static int aice_usb_set_address_dim(uint32_t coreid
, uint32_t address
)
3098 uint32_t instructions
[4] = {
3099 SETHI(R0
, address
>> 12),
3100 ORI(R0
, R0
, address
& 0x00000FFF),
3105 return aice_execute_dim(coreid
, instructions
, 4);
3108 static int aice_usb_read_memory_unit(uint32_t coreid
, uint32_t addr
, uint32_t size
,
3109 uint32_t count
, uint8_t *buffer
)
3111 LOG_DEBUG("aice_usb_read_memory_unit, addr: 0x%08" PRIx32
3112 ", size: %" PRIu32
", count: %" PRIu32
"",
3115 if (NDS_MEMORY_ACC_CPU
== core_info
[coreid
].access_channel
)
3116 aice_usb_set_address_dim(coreid
, addr
);
3120 read_mem_func_t read_mem_func
;
3124 if (NDS_MEMORY_ACC_BUS
== core_info
[coreid
].access_channel
)
3125 read_mem_func
= aice_usb_read_mem_b_bus
;
3127 read_mem_func
= aice_usb_read_mem_b_dim
;
3129 for (i
= 0; i
< count
; i
++) {
3130 read_mem_func(coreid
, addr
, &value
);
3131 *buffer
++ = (uint8_t)value
;
3136 if (NDS_MEMORY_ACC_BUS
== core_info
[coreid
].access_channel
)
3137 read_mem_func
= aice_usb_read_mem_h_bus
;
3139 read_mem_func
= aice_usb_read_mem_h_dim
;
3141 for (i
= 0; i
< count
; i
++) {
3142 read_mem_func(coreid
, addr
, &value
);
3143 uint16_t svalue
= value
;
3144 memcpy(buffer
, &svalue
, sizeof(uint16_t));
3150 if (NDS_MEMORY_ACC_BUS
== core_info
[coreid
].access_channel
)
3151 read_mem_func
= aice_usb_read_mem_w_bus
;
3153 read_mem_func
= aice_usb_read_mem_w_dim
;
3155 for (i
= 0; i
< count
; i
++) {
3156 read_mem_func(coreid
, addr
, &value
);
3157 memcpy(buffer
, &value
, sizeof(uint32_t));
3167 static int aice_usb_write_mem_b_bus(uint32_t coreid
, uint32_t address
, uint32_t data
)
3169 return aice_write_mem_b(coreid
, address
, data
);
3172 static int aice_usb_write_mem_h_bus(uint32_t coreid
, uint32_t address
, uint32_t data
)
3174 return aice_write_mem_h(coreid
, address
, data
);
3177 static int aice_usb_write_mem_w_bus(uint32_t coreid
, uint32_t address
, uint32_t data
)
3179 return aice_write_mem(coreid
, address
, data
);
3182 static int aice_usb_write_mem_b_dim(uint32_t coreid
, uint32_t address
, uint32_t data
)
3184 uint32_t instructions
[4] = {
3191 aice_write_dtr(coreid
, data
& 0xFF);
3192 aice_execute_dim(coreid
, instructions
, 4);
3197 static int aice_usb_write_mem_h_dim(uint32_t coreid
, uint32_t address
, uint32_t data
)
3199 uint32_t instructions
[4] = {
3206 aice_write_dtr(coreid
, data
& 0xFFFF);
3207 aice_execute_dim(coreid
, instructions
, 4);
3212 static int aice_usb_write_mem_w_dim(uint32_t coreid
, uint32_t address
, uint32_t data
)
3214 uint32_t instructions
[4] = {
3221 aice_write_dtr(coreid
, data
);
3222 aice_execute_dim(coreid
, instructions
, 4);
3227 static int aice_usb_write_memory_unit(uint32_t coreid
, uint32_t addr
, uint32_t size
,
3228 uint32_t count
, const uint8_t *buffer
)
3230 LOG_DEBUG("aice_usb_write_memory_unit, addr: 0x%08" PRIx32
3231 ", size: %" PRIu32
", count: %" PRIu32
"",
3234 if (NDS_MEMORY_ACC_CPU
== core_info
[coreid
].access_channel
)
3235 aice_usb_set_address_dim(coreid
, addr
);
3238 write_mem_func_t write_mem_func
;
3242 if (NDS_MEMORY_ACC_BUS
== core_info
[coreid
].access_channel
)
3243 write_mem_func
= aice_usb_write_mem_b_bus
;
3245 write_mem_func
= aice_usb_write_mem_b_dim
;
3247 for (i
= 0; i
< count
; i
++) {
3248 write_mem_func(coreid
, addr
, *buffer
);
3254 if (NDS_MEMORY_ACC_BUS
== core_info
[coreid
].access_channel
)
3255 write_mem_func
= aice_usb_write_mem_h_bus
;
3257 write_mem_func
= aice_usb_write_mem_h_dim
;
3259 for (i
= 0; i
< count
; i
++) {
3261 memcpy(&value
, buffer
, sizeof(uint16_t));
3263 write_mem_func(coreid
, addr
, value
);
3269 if (NDS_MEMORY_ACC_BUS
== core_info
[coreid
].access_channel
)
3270 write_mem_func
= aice_usb_write_mem_w_bus
;
3272 write_mem_func
= aice_usb_write_mem_w_dim
;
3274 for (i
= 0; i
< count
; i
++) {
3276 memcpy(&value
, buffer
, sizeof(uint32_t));
3278 write_mem_func(coreid
, addr
, value
);
3288 static int aice_bulk_read_mem(uint32_t coreid
, uint32_t addr
, uint32_t count
,
3291 uint32_t packet_size
;
3294 packet_size
= (count
>= 0x100) ? 0x100 : count
;
3298 if (aice_write_misc(coreid
, NDS_EDM_MISC_SBAR
, addr
) != ERROR_OK
)
3301 if (aice_fastread_mem(coreid
, buffer
,
3302 packet_size
) != ERROR_OK
)
3305 buffer
+= (packet_size
* 4);
3306 addr
+= (packet_size
* 4);
3307 count
-= packet_size
;
3313 static int aice_bulk_write_mem(uint32_t coreid
, uint32_t addr
, uint32_t count
,
3314 const uint8_t *buffer
)
3316 uint32_t packet_size
;
3319 packet_size
= (count
>= 0x100) ? 0x100 : count
;
3323 if (aice_write_misc(coreid
, NDS_EDM_MISC_SBAR
, addr
| 1) != ERROR_OK
)
3326 if (aice_fastwrite_mem(coreid
, buffer
,
3327 packet_size
) != ERROR_OK
)
3330 buffer
+= (packet_size
* 4);
3331 addr
+= (packet_size
* 4);
3332 count
-= packet_size
;
3338 static int aice_usb_bulk_read_mem(uint32_t coreid
, uint32_t addr
,
3339 uint32_t length
, uint8_t *buffer
)
3341 LOG_DEBUG("aice_usb_bulk_read_mem, addr: 0x%08" PRIx32
", length: 0x%08" PRIx32
, addr
, length
);
3345 if (NDS_MEMORY_ACC_CPU
== core_info
[coreid
].access_channel
)
3346 aice_usb_set_address_dim(coreid
, addr
);
3348 if (NDS_MEMORY_ACC_CPU
== core_info
[coreid
].access_channel
)
3349 retval
= aice_usb_read_memory_unit(coreid
, addr
, 4, length
/ 4, buffer
);
3351 retval
= aice_bulk_read_mem(coreid
, addr
, length
/ 4, buffer
);
3356 static int aice_usb_bulk_write_mem(uint32_t coreid
, uint32_t addr
,
3357 uint32_t length
, const uint8_t *buffer
)
3359 LOG_DEBUG("aice_usb_bulk_write_mem, addr: 0x%08" PRIx32
", length: 0x%08" PRIx32
, addr
, length
);
3363 if (NDS_MEMORY_ACC_CPU
== core_info
[coreid
].access_channel
)
3364 aice_usb_set_address_dim(coreid
, addr
);
3366 if (NDS_MEMORY_ACC_CPU
== core_info
[coreid
].access_channel
)
3367 retval
= aice_usb_write_memory_unit(coreid
, addr
, 4, length
/ 4, buffer
);
3369 retval
= aice_bulk_write_mem(coreid
, addr
, length
/ 4, buffer
);
3374 static int aice_usb_read_debug_reg(uint32_t coreid
, uint32_t addr
, uint32_t *val
)
3376 if (AICE_TARGET_HALTED
== core_info
[coreid
].core_state
) {
3377 if (NDS_EDM_SR_EDMSW
== addr
) {
3378 *val
= core_info
[coreid
].edmsw_backup
;
3379 } else if (NDS_EDM_SR_EDM_DTR
== addr
) {
3380 if (core_info
[coreid
].target_dtr_valid
) {
3381 /* if EDM_DTR has read out, clear it. */
3382 *val
= core_info
[coreid
].target_dtr_backup
;
3383 core_info
[coreid
].edmsw_backup
&= (~0x1);
3384 core_info
[coreid
].target_dtr_valid
= false;
3391 return aice_read_edmsr(coreid
, addr
, val
);
3394 static int aice_usb_write_debug_reg(uint32_t coreid
, uint32_t addr
, const uint32_t val
)
3396 if (AICE_TARGET_HALTED
== core_info
[coreid
].core_state
) {
3397 if (NDS_EDM_SR_EDM_DTR
== addr
) {
3398 core_info
[coreid
].host_dtr_backup
= val
;
3399 core_info
[coreid
].edmsw_backup
|= 0x2;
3400 core_info
[coreid
].host_dtr_valid
= true;
3404 return aice_write_edmsr(coreid
, addr
, val
);
3407 static int aice_usb_memory_access(uint32_t coreid
, enum nds_memory_access channel
)
3409 LOG_DEBUG("aice_usb_memory_access, access channel: %u", channel
);
3411 core_info
[coreid
].access_channel
= channel
;
3416 static int aice_usb_memory_mode(uint32_t coreid
, enum nds_memory_select mem_select
)
3418 if (core_info
[coreid
].memory_select
== mem_select
)
3421 LOG_DEBUG("aice_usb_memory_mode, memory select: %u", mem_select
);
3423 core_info
[coreid
].memory_select
= mem_select
;
3425 if (NDS_MEMORY_SELECT_AUTO
!= core_info
[coreid
].memory_select
)
3426 aice_write_misc(coreid
, NDS_EDM_MISC_ACC_CTL
,
3427 core_info
[coreid
].memory_select
- 1);
3429 aice_write_misc(coreid
, NDS_EDM_MISC_ACC_CTL
,
3430 NDS_MEMORY_SELECT_MEM
- 1);
3435 static int aice_usb_read_tlb(uint32_t coreid
, target_addr_t virtual_address
,
3436 target_addr_t
*physical_address
)
3438 LOG_DEBUG("aice_usb_read_tlb, virtual address: 0x%08" TARGET_PRIxADDR
, virtual_address
);
3440 uint32_t instructions
[4];
3441 uint32_t probe_result
;
3444 uint32_t access_page_size
;
3445 uint32_t virtual_offset
;
3446 uint32_t physical_page_number
;
3448 aice_write_dtr(coreid
, virtual_address
);
3450 /* probe TLB first */
3451 instructions
[0] = MFSR_DTR(R0
);
3452 instructions
[1] = TLBOP_TARGET_PROBE(R1
, R0
);
3453 instructions
[2] = DSB
;
3454 instructions
[3] = BEQ_MINUS_12
;
3455 aice_execute_dim(coreid
, instructions
, 4);
3457 aice_read_reg(coreid
, R1
, &probe_result
);
3459 if (probe_result
& 0x80000000)
3462 /* read TLB entry */
3463 aice_write_dtr(coreid
, probe_result
& 0x7FF);
3465 /* probe TLB first */
3466 instructions
[0] = MFSR_DTR(R0
);
3467 instructions
[1] = TLBOP_TARGET_READ(R0
);
3468 instructions
[2] = DSB
;
3469 instructions
[3] = BEQ_MINUS_12
;
3470 aice_execute_dim(coreid
, instructions
, 4);
3472 /* TODO: it should backup mr3, mr4 */
3473 aice_read_reg(coreid
, MR3
, &value_mr3
);
3474 aice_read_reg(coreid
, MR4
, &value_mr4
);
3476 access_page_size
= value_mr4
& 0xF;
3477 if (0 == access_page_size
) { /* 4K page */
3478 virtual_offset
= virtual_address
& 0x00000FFF;
3479 physical_page_number
= value_mr3
& 0xFFFFF000;
3480 } else if (1 == access_page_size
) { /* 8K page */
3481 virtual_offset
= virtual_address
& 0x00001FFF;
3482 physical_page_number
= value_mr3
& 0xFFFFE000;
3483 } else if (5 == access_page_size
) { /* 1M page */
3484 virtual_offset
= virtual_address
& 0x000FFFFF;
3485 physical_page_number
= value_mr3
& 0xFFF00000;
3490 *physical_address
= physical_page_number
| virtual_offset
;
3495 static int aice_usb_init_cache(uint32_t coreid
)
3497 LOG_DEBUG("aice_usb_init_cache");
3502 aice_read_reg(coreid
, CR1
, &value_cr1
);
3503 aice_read_reg(coreid
, CR2
, &value_cr2
);
3505 struct cache_info
*icache
= &core_info
[coreid
].icache
;
3507 icache
->set
= value_cr1
& 0x7;
3508 icache
->log2_set
= icache
->set
+ 6;
3509 icache
->set
= 64 << icache
->set
;
3510 icache
->way
= ((value_cr1
>> 3) & 0x7) + 1;
3511 icache
->line_size
= (value_cr1
>> 6) & 0x7;
3512 if (icache
->line_size
!= 0) {
3513 icache
->log2_line_size
= icache
->line_size
+ 2;
3514 icache
->line_size
= 8 << (icache
->line_size
- 1);
3516 icache
->log2_line_size
= 0;
3519 LOG_DEBUG("\ticache set: %" PRIu32
", way: %" PRIu32
", line size: %" PRIu32
", "
3520 "log2(set): %" PRIu32
", log2(line_size): %" PRIu32
"",
3521 icache
->set
, icache
->way
, icache
->line_size
,
3522 icache
->log2_set
, icache
->log2_line_size
);
3524 struct cache_info
*dcache
= &core_info
[coreid
].dcache
;
3526 dcache
->set
= value_cr2
& 0x7;
3527 dcache
->log2_set
= dcache
->set
+ 6;
3528 dcache
->set
= 64 << dcache
->set
;
3529 dcache
->way
= ((value_cr2
>> 3) & 0x7) + 1;
3530 dcache
->line_size
= (value_cr2
>> 6) & 0x7;
3531 if (dcache
->line_size
!= 0) {
3532 dcache
->log2_line_size
= dcache
->line_size
+ 2;
3533 dcache
->line_size
= 8 << (dcache
->line_size
- 1);
3535 dcache
->log2_line_size
= 0;
3538 LOG_DEBUG("\tdcache set: %" PRIu32
", way: %" PRIu32
", line size: %" PRIu32
", "
3539 "log2(set): %" PRIu32
", log2(line_size): %" PRIu32
"",
3540 dcache
->set
, dcache
->way
, dcache
->line_size
,
3541 dcache
->log2_set
, dcache
->log2_line_size
);
3543 core_info
[coreid
].cache_init
= true;
3548 static int aice_usb_dcache_inval_all(uint32_t coreid
)
3550 LOG_DEBUG("aice_usb_dcache_inval_all");
3554 uint32_t cache_index
;
3555 uint32_t instructions
[4];
3557 instructions
[0] = MFSR_DTR(R0
);
3558 instructions
[1] = L1D_IX_INVAL(R0
);
3559 instructions
[2] = DSB
;
3560 instructions
[3] = BEQ_MINUS_12
;
3562 struct cache_info
*dcache
= &core_info
[coreid
].dcache
;
3564 for (set_index
= 0; set_index
< dcache
->set
; set_index
++) {
3565 for (way_index
= 0; way_index
< dcache
->way
; way_index
++) {
3566 cache_index
= (way_index
<< (dcache
->log2_set
+ dcache
->log2_line_size
)) |
3567 (set_index
<< dcache
->log2_line_size
);
3569 if (ERROR_OK
!= aice_write_dtr(coreid
, cache_index
))
3572 if (ERROR_OK
!= aice_execute_dim(coreid
, instructions
, 4))
3580 static int aice_usb_dcache_va_inval(uint32_t coreid
, uint32_t address
)
3582 LOG_DEBUG("aice_usb_dcache_va_inval");
3584 uint32_t instructions
[4];
3586 aice_write_dtr(coreid
, address
);
3588 instructions
[0] = MFSR_DTR(R0
);
3589 instructions
[1] = L1D_VA_INVAL(R0
);
3590 instructions
[2] = DSB
;
3591 instructions
[3] = BEQ_MINUS_12
;
3593 return aice_execute_dim(coreid
, instructions
, 4);
3596 static int aice_usb_dcache_wb_all(uint32_t coreid
)
3598 LOG_DEBUG("aice_usb_dcache_wb_all");
3602 uint32_t cache_index
;
3603 uint32_t instructions
[4];
3605 instructions
[0] = MFSR_DTR(R0
);
3606 instructions
[1] = L1D_IX_WB(R0
);
3607 instructions
[2] = DSB
;
3608 instructions
[3] = BEQ_MINUS_12
;
3610 struct cache_info
*dcache
= &core_info
[coreid
].dcache
;
3612 for (set_index
= 0; set_index
< dcache
->set
; set_index
++) {
3613 for (way_index
= 0; way_index
< dcache
->way
; way_index
++) {
3614 cache_index
= (way_index
<< (dcache
->log2_set
+ dcache
->log2_line_size
)) |
3615 (set_index
<< dcache
->log2_line_size
);
3617 if (ERROR_OK
!= aice_write_dtr(coreid
, cache_index
))
3620 if (ERROR_OK
!= aice_execute_dim(coreid
, instructions
, 4))
3628 static int aice_usb_dcache_va_wb(uint32_t coreid
, uint32_t address
)
3630 LOG_DEBUG("aice_usb_dcache_va_wb");
3632 uint32_t instructions
[4];
3634 aice_write_dtr(coreid
, address
);
3636 instructions
[0] = MFSR_DTR(R0
);
3637 instructions
[1] = L1D_VA_WB(R0
);
3638 instructions
[2] = DSB
;
3639 instructions
[3] = BEQ_MINUS_12
;
3641 return aice_execute_dim(coreid
, instructions
, 4);
3644 static int aice_usb_icache_inval_all(uint32_t coreid
)
3646 LOG_DEBUG("aice_usb_icache_inval_all");
3650 uint32_t cache_index
;
3651 uint32_t instructions
[4];
3653 instructions
[0] = MFSR_DTR(R0
);
3654 instructions
[1] = L1I_IX_INVAL(R0
);
3655 instructions
[2] = ISB
;
3656 instructions
[3] = BEQ_MINUS_12
;
3658 struct cache_info
*icache
= &core_info
[coreid
].icache
;
3660 for (set_index
= 0; set_index
< icache
->set
; set_index
++) {
3661 for (way_index
= 0; way_index
< icache
->way
; way_index
++) {
3662 cache_index
= (way_index
<< (icache
->log2_set
+ icache
->log2_line_size
)) |
3663 (set_index
<< icache
->log2_line_size
);
3665 if (ERROR_OK
!= aice_write_dtr(coreid
, cache_index
))
3668 if (ERROR_OK
!= aice_execute_dim(coreid
, instructions
, 4))
3676 static int aice_usb_icache_va_inval(uint32_t coreid
, uint32_t address
)
3678 LOG_DEBUG("aice_usb_icache_va_inval");
3680 uint32_t instructions
[4];
3682 aice_write_dtr(coreid
, address
);
3684 instructions
[0] = MFSR_DTR(R0
);
3685 instructions
[1] = L1I_VA_INVAL(R0
);
3686 instructions
[2] = ISB
;
3687 instructions
[3] = BEQ_MINUS_12
;
3689 return aice_execute_dim(coreid
, instructions
, 4);
3692 static int aice_usb_cache_ctl(uint32_t coreid
, uint32_t subtype
, uint32_t address
)
3694 LOG_DEBUG("aice_usb_cache_ctl");
3698 if (core_info
[coreid
].cache_init
== false)
3699 aice_usb_init_cache(coreid
);
3702 case AICE_CACHE_CTL_L1D_INVALALL
:
3703 result
= aice_usb_dcache_inval_all(coreid
);
3705 case AICE_CACHE_CTL_L1D_VA_INVAL
:
3706 result
= aice_usb_dcache_va_inval(coreid
, address
);
3708 case AICE_CACHE_CTL_L1D_WBALL
:
3709 result
= aice_usb_dcache_wb_all(coreid
);
3711 case AICE_CACHE_CTL_L1D_VA_WB
:
3712 result
= aice_usb_dcache_va_wb(coreid
, address
);
3714 case AICE_CACHE_CTL_L1I_INVALALL
:
3715 result
= aice_usb_icache_inval_all(coreid
);
3717 case AICE_CACHE_CTL_L1I_VA_INVAL
:
3718 result
= aice_usb_icache_va_inval(coreid
, address
);
3721 result
= ERROR_FAIL
;
3728 static int aice_usb_set_retry_times(uint32_t a_retry_times
)
3730 aice_max_retry_times
= a_retry_times
;
3734 static int aice_usb_program_edm(uint32_t coreid
, char *command_sequence
)
3739 uint32_t data_value
;
3743 command_str
= strtok(command_sequence
, ";");
3744 if (command_str
== NULL
)
3749 /* process one command */
3750 while (command_str
[i
] == ' ' ||
3751 command_str
[i
] == '\n' ||
3752 command_str
[i
] == '\r' ||
3753 command_str
[i
] == '\t')
3756 /* skip ' ', '\r', '\n', '\t' */
3757 command_str
= command_str
+ i
;
3759 if (strncmp(command_str
, "write_misc", 10) == 0) {
3760 reg_name_0
= strstr(command_str
, "gen_port0");
3761 reg_name_1
= strstr(command_str
, "gen_port1");
3763 if (reg_name_0
!= NULL
) {
3764 data_value
= strtoul(reg_name_0
+ 9, NULL
, 0);
3766 if (aice_write_misc(coreid
,
3767 NDS_EDM_MISC_GEN_PORT0
, data_value
) != ERROR_OK
)
3770 } else if (reg_name_1
!= NULL
) {
3771 data_value
= strtoul(reg_name_1
+ 9, NULL
, 0);
3773 if (aice_write_misc(coreid
,
3774 NDS_EDM_MISC_GEN_PORT1
, data_value
) != ERROR_OK
)
3777 LOG_ERROR("program EDM, unsupported misc register: %s", command_str
);
3780 LOG_ERROR("program EDM, unsupported command: %s", command_str
);
3783 /* update command_str */
3784 command_str
= strtok(NULL
, ";");
3786 } while (command_str
!= NULL
);
3791 static int aice_usb_set_command_mode(enum aice_command_mode command_mode
)
3793 int retval
= ERROR_OK
;
3795 /* flush usb_packets_buffer as users change mode */
3796 retval
= aice_usb_packet_flush();
3798 if (AICE_COMMAND_MODE_BATCH
== command_mode
) {
3799 /* reset batch buffer */
3800 aice_command_mode
= AICE_COMMAND_MODE_NORMAL
;
3801 retval
= aice_write_ctrl(AICE_WRITE_CTRL_BATCH_CMD_BUF0_CTRL
, 0x40000);
3804 aice_command_mode
= command_mode
;
3809 static int aice_usb_execute(uint32_t coreid
, uint32_t *instructions
,
3810 uint32_t instruction_num
)
3813 uint8_t current_instruction_num
;
3814 uint32_t dim_instructions
[4] = {NOP
, NOP
, NOP
, BEQ_MINUS_12
};
3816 /* To execute 4 instructions as a special case */
3817 if (instruction_num
== 4)
3818 return aice_execute_dim(coreid
, instructions
, 4);
3820 for (i
= 0 ; i
< instruction_num
; i
+= 3) {
3821 if (instruction_num
- i
< 3) {
3822 current_instruction_num
= instruction_num
- i
;
3823 for (j
= current_instruction_num
; j
< 3 ; j
++)
3824 dim_instructions
[j
] = NOP
;
3826 current_instruction_num
= 3;
3829 memcpy(dim_instructions
, instructions
+ i
,
3830 current_instruction_num
* sizeof(uint32_t));
3833 if (aice_write_dim(coreid
,
3838 /** clear DBGER.DPED */
3839 if (aice_write_misc(coreid
,
3840 NDS_EDM_MISC_DBGER
, NDS_DBGER_DPED
) != ERROR_OK
)
3844 if (aice_do_execute(coreid
) != ERROR_OK
)
3847 /** check DBGER.DPED */
3848 if (aice_check_dbger(coreid
, NDS_DBGER_DPED
) != ERROR_OK
) {
3850 LOG_ERROR("<-- TARGET ERROR! Debug operations do not finish properly:"
3851 "0x%08" PRIx32
" 0x%08" PRIx32
" 0x%08" PRIx32
" 0x%08" PRIx32
". -->",
3852 dim_instructions
[0],
3853 dim_instructions
[1],
3854 dim_instructions
[2],
3855 dim_instructions
[3]);
3863 static int aice_usb_set_custom_srst_script(const char *script
)
3865 custom_srst_script
= strdup(script
);
3870 static int aice_usb_set_custom_trst_script(const char *script
)
3872 custom_trst_script
= strdup(script
);
3877 static int aice_usb_set_custom_restart_script(const char *script
)
3879 custom_restart_script
= strdup(script
);
3884 static int aice_usb_set_count_to_check_dbger(uint32_t count_to_check
)
3886 aice_count_to_check_dbger
= count_to_check
;
3891 static int aice_usb_set_data_endian(uint32_t coreid
,
3892 enum aice_target_endian target_data_endian
)
3894 data_endian
= target_data_endian
;
3899 static int fill_profiling_batch_commands(uint32_t coreid
, uint32_t reg_no
)
3901 uint32_t dim_instructions
[4];
3903 aice_usb_set_command_mode(AICE_COMMAND_MODE_BATCH
);
3906 if (aice_write_misc(coreid
, NDS_EDM_MISC_EDM_CMDR
, 0) != ERROR_OK
)
3910 dim_instructions
[0] = MTSR_DTR(0);
3911 dim_instructions
[1] = DSB
;
3912 dim_instructions
[2] = NOP
;
3913 dim_instructions
[3] = BEQ_MINUS_12
;
3914 if (aice_write_dim(coreid
, dim_instructions
, 4) != ERROR_OK
)
3916 aice_read_dtr_to_buffer(coreid
, AICE_BATCH_DATA_BUFFER_0
);
3919 if (NDS32_REG_TYPE_GPR
== nds32_reg_type(reg_no
)) {
3920 /* general registers */
3921 dim_instructions
[0] = MTSR_DTR(reg_no
);
3922 dim_instructions
[1] = DSB
;
3923 dim_instructions
[2] = NOP
;
3924 dim_instructions
[3] = BEQ_MINUS_12
;
3925 } else if (NDS32_REG_TYPE_SPR
== nds32_reg_type(reg_no
)) {
3926 /* user special registers */
3927 dim_instructions
[0] = MFUSR_G0(0, nds32_reg_sr_index(reg_no
));
3928 dim_instructions
[1] = MTSR_DTR(0);
3929 dim_instructions
[2] = DSB
;
3930 dim_instructions
[3] = BEQ_MINUS_12
;
3931 } else { /* system registers */
3932 dim_instructions
[0] = MFSR(0, nds32_reg_sr_index(reg_no
));
3933 dim_instructions
[1] = MTSR_DTR(0);
3934 dim_instructions
[2] = DSB
;
3935 dim_instructions
[3] = BEQ_MINUS_12
;
3937 if (aice_write_dim(coreid
, dim_instructions
, 4) != ERROR_OK
)
3939 aice_read_dtr_to_buffer(coreid
, AICE_BATCH_DATA_BUFFER_1
);
3942 aice_write_dtr_from_buffer(coreid
, AICE_BATCH_DATA_BUFFER_0
);
3943 dim_instructions
[0] = MFSR_DTR(0);
3944 dim_instructions
[1] = DSB
;
3945 dim_instructions
[2] = NOP
;
3946 dim_instructions
[3] = IRET
; /* free run */
3947 if (aice_write_dim(coreid
, dim_instructions
, 4) != ERROR_OK
)
3950 aice_command_mode
= AICE_COMMAND_MODE_NORMAL
;
3952 /* use BATCH_BUFFER_WRITE to fill command-batch-buffer */
3953 if (aice_batch_buffer_write(AICE_BATCH_COMMAND_BUFFER_0
,
3954 usb_out_packets_buffer
,
3955 (usb_out_packets_buffer_length
+ 3) / 4) != ERROR_OK
)
3958 usb_out_packets_buffer_length
= 0;
3959 usb_in_packets_buffer_length
= 0;
3964 static int aice_usb_profiling(uint32_t coreid
, uint32_t interval
, uint32_t iteration
,
3965 uint32_t reg_no
, uint32_t *samples
, uint32_t *num_samples
)
3967 uint32_t iteration_count
;
3968 uint32_t this_iteration
;
3969 int retval
= ERROR_OK
;
3970 const uint32_t MAX_ITERATION
= 250;
3975 if (aice_write_ctrl(AICE_WRITE_CTRL_BATCH_DIM_SIZE
, 4) != ERROR_OK
)
3978 /* Use AICE_BATCH_DATA_BUFFER_0 to read/write $DTR.
3979 * Set it to circular buffer */
3980 if (aice_write_ctrl(AICE_WRITE_CTRL_BATCH_DATA_BUF0_CTRL
, 0xC0000) != ERROR_OK
)
3983 fill_profiling_batch_commands(coreid
, reg_no
);
3985 iteration_count
= 0;
3986 while (iteration_count
< iteration
) {
3987 if (iteration
- iteration_count
< MAX_ITERATION
)
3988 this_iteration
= iteration
- iteration_count
;
3990 this_iteration
= MAX_ITERATION
;
3992 /* set number of iterations */
3993 uint32_t val_iteration
;
3994 val_iteration
= interval
<< 16 | this_iteration
;
3995 if (aice_write_ctrl(AICE_WRITE_CTRL_BATCH_ITERATION
,
3996 val_iteration
) != ERROR_OK
) {
3997 retval
= ERROR_FAIL
;
4001 /* init AICE_WRITE_CTRL_BATCH_DATA_BUF1_CTRL to store $PC */
4002 if (aice_write_ctrl(AICE_WRITE_CTRL_BATCH_DATA_BUF1_CTRL
,
4003 0x40000) != ERROR_OK
) {
4004 retval
= ERROR_FAIL
;
4008 aice_usb_run(coreid
);
4010 /* enable BATCH command */
4011 if (aice_write_ctrl(AICE_WRITE_CTRL_BATCH_CTRL
,
4012 0x80000000) != ERROR_OK
) {
4013 aice_usb_halt(coreid
);
4014 retval
= ERROR_FAIL
;
4018 /* wait a while (AICE bug, workaround) */
4019 alive_sleep(this_iteration
);
4023 uint32_t batch_status
;
4027 aice_read_ctrl(AICE_READ_CTRL_BATCH_STATUS
, &batch_status
);
4029 if (batch_status
& 0x1) {
4031 } else if (batch_status
& 0xE) {
4032 aice_usb_halt(coreid
);
4033 retval
= ERROR_FAIL
;
4043 aice_usb_halt(coreid
);
4045 /* get samples from batch data buffer */
4046 if (aice_batch_buffer_read(AICE_BATCH_DATA_BUFFER_1
,
4047 samples
+ iteration_count
, this_iteration
) != ERROR_OK
) {
4048 retval
= ERROR_FAIL
;
4052 iteration_count
+= this_iteration
;
4056 *num_samples
= iteration_count
;
4062 struct aice_port_api_s aice_usb_api
= {
4064 .open
= aice_open_device
,
4066 .close
= aice_usb_close
,
4068 .idcode
= aice_usb_idcode
,
4070 .state
= aice_usb_state
,
4072 .reset
= aice_usb_reset
,
4074 .assert_srst
= aice_usb_assert_srst
,
4076 .run
= aice_usb_run
,
4078 .halt
= aice_usb_halt
,
4080 .step
= aice_usb_step
,
4082 .read_reg
= aice_usb_read_reg
,
4084 .write_reg
= aice_usb_write_reg
,
4086 .read_reg_64
= aice_usb_read_reg_64
,
4088 .write_reg_64
= aice_usb_write_reg_64
,
4090 .read_mem_unit
= aice_usb_read_memory_unit
,
4092 .write_mem_unit
= aice_usb_write_memory_unit
,
4094 .read_mem_bulk
= aice_usb_bulk_read_mem
,
4096 .write_mem_bulk
= aice_usb_bulk_write_mem
,
4098 .read_debug_reg
= aice_usb_read_debug_reg
,
4100 .write_debug_reg
= aice_usb_write_debug_reg
,
4102 .set_jtag_clock
= aice_usb_set_jtag_clock
,
4104 .memory_access
= aice_usb_memory_access
,
4106 .memory_mode
= aice_usb_memory_mode
,
4108 .read_tlb
= aice_usb_read_tlb
,
4110 .cache_ctl
= aice_usb_cache_ctl
,
4112 .set_retry_times
= aice_usb_set_retry_times
,
4114 .program_edm
= aice_usb_program_edm
,
4116 .set_command_mode
= aice_usb_set_command_mode
,
4118 .execute
= aice_usb_execute
,
4120 .set_custom_srst_script
= aice_usb_set_custom_srst_script
,
4122 .set_custom_trst_script
= aice_usb_set_custom_trst_script
,
4124 .set_custom_restart_script
= aice_usb_set_custom_restart_script
,
4126 .set_count_to_check_dbger
= aice_usb_set_count_to_check_dbger
,
4128 .set_data_endian
= aice_usb_set_data_endian
,
4130 .profiling
= aice_usb_profiling
,