10 #include <sys/types.h>
15 #include "stlink-common.h"
16 #include "uglylogging.h"
18 #define LOG_TAG __FILE__
19 #define DLOG(format, args...) ugly_log(UDEBUG, LOG_TAG, format, ## args)
20 #define ILOG(format, args...) ugly_log(UINFO, LOG_TAG, format, ## args)
21 #define WLOG(format, args...) ugly_log(UWARN, LOG_TAG, format, ## args)
22 #define fatal(format, args...) ugly_log(UFATAL, LOG_TAG, format, ## args)
25 /* FPEC flash controller interface, pm0063 manual
28 #define FLASH_REGS_ADDR 0x40022000
29 #define FLASH_REGS_SIZE 0x28
31 #define FLASH_ACR (FLASH_REGS_ADDR + 0x00)
32 #define FLASH_KEYR (FLASH_REGS_ADDR + 0x04)
33 #define FLASH_SR (FLASH_REGS_ADDR + 0x0c)
34 #define FLASH_CR (FLASH_REGS_ADDR + 0x10)
35 #define FLASH_AR (FLASH_REGS_ADDR + 0x14)
36 #define FLASH_OBR (FLASH_REGS_ADDR + 0x1c)
37 #define FLASH_WRPR (FLASH_REGS_ADDR + 0x20)
39 #define FLASH_RDPTR_KEY 0x00a5
40 #define FLASH_KEY1 0x45670123
41 #define FLASH_KEY2 0xcdef89ab
43 #define FLASH_SR_BSY 0
44 #define FLASH_SR_EOP 5
47 #define FLASH_CR_PER 1
48 #define FLASH_CR_MER 2
49 #define FLASH_CR_STRT 6
50 #define FLASH_CR_LOCK 7
52 void write_uint32(unsigned char* buf, uint32_t ui) {
53 if (!is_bigendian()) { // le -> le (don't swap)
54 buf[0] = ((unsigned char*) &ui)[0];
55 buf[1] = ((unsigned char*) &ui)[1];
56 buf[2] = ((unsigned char*) &ui)[2];
57 buf[3] = ((unsigned char*) &ui)[3];
59 buf[0] = ((unsigned char*) &ui)[3];
60 buf[1] = ((unsigned char*) &ui)[2];
61 buf[2] = ((unsigned char*) &ui)[1];
62 buf[3] = ((unsigned char*) &ui)[0];
66 void write_uint16(unsigned char* buf, uint16_t ui) {
67 if (!is_bigendian()) { // le -> le (don't swap)
68 buf[0] = ((unsigned char*) &ui)[0];
69 buf[1] = ((unsigned char*) &ui)[1];
71 buf[0] = ((unsigned char*) &ui)[1];
72 buf[1] = ((unsigned char*) &ui)[0];
76 uint32_t read_uint32(const unsigned char *c, const int pt) {
78 char *p = (char *) &ui;
80 if (!is_bigendian()) { // le -> le (don't swap)
94 static uint32_t __attribute__((unused)) read_flash_rdp(stlink_t *sl) {
95 stlink_read_mem32(sl, FLASH_WRPR, sizeof (uint32_t));
96 return (*(uint32_t*) sl->q_buf) & 0xff;
99 static inline uint32_t read_flash_wrpr(stlink_t *sl) {
100 stlink_read_mem32(sl, FLASH_WRPR, sizeof (uint32_t));
101 return *(uint32_t*) sl->q_buf;
104 static inline uint32_t read_flash_obr(stlink_t *sl) {
105 stlink_read_mem32(sl, FLASH_OBR, sizeof (uint32_t));
106 return *(uint32_t*) sl->q_buf;
109 static inline uint32_t read_flash_cr(stlink_t *sl) {
110 stlink_read_mem32(sl, FLASH_CR, sizeof (uint32_t));
111 return *(uint32_t*) sl->q_buf;
114 static inline unsigned int is_flash_locked(stlink_t *sl) {
115 /* return non zero for true */
116 return read_flash_cr(sl) & (1 << FLASH_CR_LOCK);
119 static void unlock_flash(stlink_t *sl) {
120 /* the unlock sequence consists of 2 write cycles where
121 2 key values are written to the FLASH_KEYR register.
122 an invalid sequence results in a definitive lock of
123 the FPEC block until next reset.
126 write_uint32(sl->q_buf, FLASH_KEY1);
127 stlink_write_mem32(sl, FLASH_KEYR, sizeof (uint32_t));
129 write_uint32(sl->q_buf, FLASH_KEY2);
130 stlink_write_mem32(sl, FLASH_KEYR, sizeof (uint32_t));
133 static int unlock_flash_if(stlink_t *sl) {
134 /* unlock flash if already locked */
136 if (is_flash_locked(sl)) {
138 if (is_flash_locked(sl))
145 static void lock_flash(stlink_t *sl) {
146 /* write to 1 only. reset by hw at unlock sequence */
148 const uint32_t n = read_flash_cr(sl) | (1 << FLASH_CR_LOCK);
150 write_uint32(sl->q_buf, n);
151 stlink_write_mem32(sl, FLASH_CR, sizeof (uint32_t));
154 static void set_flash_cr_pg(stlink_t *sl) {
155 const uint32_t n = 1 << FLASH_CR_PG;
156 write_uint32(sl->q_buf, n);
157 stlink_write_mem32(sl, FLASH_CR, sizeof (uint32_t));
160 static void __attribute__((unused)) clear_flash_cr_pg(stlink_t *sl) {
161 const uint32_t n = read_flash_cr(sl) & ~(1 << FLASH_CR_PG);
162 write_uint32(sl->q_buf, n);
163 stlink_write_mem32(sl, FLASH_CR, sizeof (uint32_t));
166 static void set_flash_cr_per(stlink_t *sl) {
167 const uint32_t n = 1 << FLASH_CR_PER;
168 write_uint32(sl->q_buf, n);
169 stlink_write_mem32(sl, FLASH_CR, sizeof (uint32_t));
172 static void __attribute__((unused)) clear_flash_cr_per(stlink_t *sl) {
173 const uint32_t n = read_flash_cr(sl) & ~(1 << FLASH_CR_PER);
174 write_uint32(sl->q_buf, n);
175 stlink_write_mem32(sl, FLASH_CR, sizeof (uint32_t));
178 static void set_flash_cr_mer(stlink_t *sl) {
179 const uint32_t n = 1 << FLASH_CR_MER;
180 write_uint32(sl->q_buf, n);
181 stlink_write_mem32(sl, FLASH_CR, sizeof (uint32_t));
184 static void __attribute__((unused)) clear_flash_cr_mer(stlink_t *sl) {
185 const uint32_t n = read_flash_cr(sl) & ~(1 << FLASH_CR_MER);
186 write_uint32(sl->q_buf, n);
187 stlink_write_mem32(sl, FLASH_CR, sizeof (uint32_t));
190 static void set_flash_cr_strt(stlink_t *sl) {
191 /* assume come on the flash_cr_per path */
192 const uint32_t n = (1 << FLASH_CR_PER) | (1 << FLASH_CR_STRT);
193 write_uint32(sl->q_buf, n);
194 stlink_write_mem32(sl, FLASH_CR, sizeof (uint32_t));
197 static inline uint32_t read_flash_acr(stlink_t *sl) {
198 stlink_read_mem32(sl, FLASH_ACR, sizeof (uint32_t));
199 return *(uint32_t*) sl->q_buf;
202 static inline uint32_t read_flash_sr(stlink_t *sl) {
203 stlink_read_mem32(sl, FLASH_SR, sizeof (uint32_t));
204 return *(uint32_t*) sl->q_buf;
207 static inline unsigned int is_flash_busy(stlink_t *sl) {
208 return read_flash_sr(sl) & (1 << FLASH_SR_BSY);
211 static void wait_flash_busy(stlink_t *sl) {
212 /* todo: add some delays here */
213 while (is_flash_busy(sl))
217 static inline unsigned int is_flash_eop(stlink_t *sl) {
218 return read_flash_sr(sl) & (1 << FLASH_SR_EOP);
221 static void __attribute__((unused)) clear_flash_sr_eop(stlink_t *sl) {
222 const uint32_t n = read_flash_sr(sl) & ~(1 << FLASH_SR_EOP);
223 write_uint32(sl->q_buf, n);
224 stlink_write_mem32(sl, FLASH_SR, sizeof (uint32_t));
227 static void __attribute__((unused)) wait_flash_eop(stlink_t *sl) {
228 /* todo: add some delays here */
229 while (is_flash_eop(sl) == 0)
233 static inline void write_flash_ar(stlink_t *sl, uint32_t n) {
234 write_uint32(sl->q_buf, n);
235 stlink_write_mem32(sl, FLASH_AR, sizeof (uint32_t));
240 static void disable_flash_read_protection(stlink_t *sl) {
241 /* erase the option byte area */
248 // Delegates to the backends...
250 void stlink_close(stlink_t *sl) {
251 DLOG("*** stlink_close ***\n");
252 sl->backend->close(sl);
256 void stlink_exit_debug_mode(stlink_t *sl) {
257 DLOG("*** stlink_exit_debug_mode ***\n");
258 sl->backend->exit_debug_mode(sl);
261 void stlink_enter_swd_mode(stlink_t *sl) {
262 DLOG("*** stlink_enter_swd_mode ***\n");
263 sl->backend->enter_swd_mode(sl);
266 // Force the core into the debug mode -> halted state.
267 void stlink_force_debug(stlink_t *sl) {
268 DLOG("*** stlink_force_debug_mode ***\n");
269 sl->backend->force_debug(sl);
272 void stlink_exit_dfu_mode(stlink_t *sl) {
273 DLOG("*** stlink_exit_dfu_mode ***\n");
274 sl->backend->exit_dfu_mode(sl);
277 uint32_t stlink_core_id(stlink_t *sl) {
278 DLOG("*** stlink_core_id ***\n");
279 sl->backend->core_id(sl);
281 stlink_print_data(sl);
282 DLOG("core_id = 0x%08x\n", sl->core_id);
286 uint16_t stlink_chip_id(stlink_t *sl) {
287 stlink_read_mem32(sl, 0xE0042000, 4);
288 uint32_t chip_id = sl->q_buf[0] | (sl->q_buf[1] << 8) | (sl->q_buf[2] << 16) |
289 (sl->q_buf[3] << 24);
294 * Cortex m3 tech ref manual, CPUID register description
295 * @param sl stlink context
296 * @param cpuid pointer to the result object
298 void stlink_cpu_id(stlink_t *sl, cortex_m3_cpuid_t *cpuid) {
299 stlink_read_mem32(sl, CM3_REG_CPUID, 4);
300 uint32_t raw = read_uint32(sl->q_buf, 0);
301 cpuid->implementer_id = (raw >> 24) & 0x7f;
302 cpuid->variant = (raw >> 20) & 0xf;
303 cpuid->part = (raw >> 4) & 0xfff;
304 cpuid->revision = raw & 0xf;
308 void stlink_reset(stlink_t *sl) {
309 DLOG("*** stlink_reset ***\n");
310 sl->backend->reset(sl);
313 void stlink_run(stlink_t *sl) {
314 DLOG("*** stlink_run ***\n");
315 sl->backend->run(sl);
318 void stlink_status(stlink_t *sl) {
319 DLOG("*** stlink_status ***\n");
320 sl->backend->status(sl);
321 stlink_core_stat(sl);
325 * Decode the version bits, originally from -sg, verified with usb
326 * @param sl stlink context, assumed to contain valid data in the buffer
327 * @param slv output parsed version object
329 void _parse_version(stlink_t *sl, stlink_version_t *slv) {
330 uint32_t b0 = sl->q_buf[0]; //lsb
331 uint32_t b1 = sl->q_buf[1];
332 uint32_t b2 = sl->q_buf[2];
333 uint32_t b3 = sl->q_buf[3];
334 uint32_t b4 = sl->q_buf[4];
335 uint32_t b5 = sl->q_buf[5]; //msb
337 // b0 b1 || b2 b3 | b4 b5
338 // 4b | 6b | 6b || 2B | 2B
339 // stlink_v | jtag_v | swim_v || st_vid | stlink_pid
341 slv->stlink_v = (b0 & 0xf0) >> 4;
342 slv->jtag_v = ((b0 & 0x0f) << 2) | ((b1 & 0xc0) >> 6);
343 slv->swim_v = b1 & 0x3f;
344 slv->st_vid = (b3 << 8) | b2;
345 slv->stlink_pid = (b5 << 8) | b4;
349 void stlink_version(stlink_t *sl) {
350 DLOG("*** looking up stlink version\n");
351 sl->backend->version(sl);
352 _parse_version(sl, &sl->version);
354 DLOG("st vid = 0x%04x (expect 0x%04x)\n", sl->version.st_vid, USB_ST_VID);
355 DLOG("stlink pid = 0x%04x\n", sl->version.stlink_pid);
356 DLOG("stlink version = 0x%x\n", sl->version.stlink_v);
357 DLOG("jtag version = 0x%x\n", sl->version.jtag_v);
358 DLOG("swim version = 0x%x\n", sl->version.swim_v);
359 if (sl->version.jtag_v == 0) {
360 DLOG(" notice: the firmware doesn't support a jtag/swd interface\n");
362 if (sl->version.swim_v == 0) {
363 DLOG(" notice: the firmware doesn't support a swim interface\n");
367 void stlink_write_mem32(stlink_t *sl, uint32_t addr, uint16_t len) {
368 DLOG("*** stlink_write_mem32 ***\n");
370 fprintf(stderr, "Error: Data length doesn't have a 32 bit alignment: +%d byte.\n", len % 4);
373 sl->backend->write_mem32(sl, addr, len);
376 void stlink_read_mem32(stlink_t *sl, uint32_t addr, uint16_t len) {
377 DLOG("*** stlink_read_mem32 ***\n");
378 if (len % 4 != 0) { // !!! never ever: fw gives just wrong values
379 fprintf(stderr, "Error: Data length doesn't have a 32 bit alignment: +%d byte.\n",
383 sl->backend->read_mem32(sl, addr, len);
386 void stlink_write_mem8(stlink_t *sl, uint32_t addr, uint16_t len) {
387 DLOG("*** stlink_write_mem8 ***\n");
388 sl->backend->write_mem8(sl, addr, len);
391 void stlink_read_all_regs(stlink_t *sl, reg *regp) {
392 DLOG("*** stlink_read_all_regs ***\n");
393 sl->backend->read_all_regs(sl, regp);
396 void stlink_write_reg(stlink_t *sl, uint32_t reg, int idx) {
397 DLOG("*** stlink_write_reg\n");
398 sl->backend->write_reg(sl, reg, idx);
401 void stlink_read_reg(stlink_t *sl, int r_idx, reg *regp) {
402 DLOG("*** stlink_read_reg\n");
403 DLOG(" (%d) ***\n", r_idx);
405 if (r_idx > 20 || r_idx < 0) {
406 fprintf(stderr, "Error: register index must be in [0..20]\n");
410 sl->backend->read_reg(sl, r_idx, regp);
413 unsigned int is_core_halted(stlink_t *sl) {
414 /* return non zero if core is halted */
416 return sl->q_buf[0] == STLINK_CORE_HALTED;
419 void stlink_step(stlink_t *sl) {
420 DLOG("*** stlink_step ***\n");
421 sl->backend->step(sl);
424 int stlink_current_mode(stlink_t *sl) {
425 int mode = sl->backend->current_mode(sl);
427 case STLINK_DEV_DFU_MODE:
428 DLOG("stlink current mode: dfu\n");
430 case STLINK_DEV_DEBUG_MODE:
431 DLOG("stlink current mode: debug (jtag or swd)\n");
433 case STLINK_DEV_MASS_MODE:
434 DLOG("stlink current mode: mass\n");
437 DLOG("stlink mode: unknown!\n");
438 return STLINK_DEV_UNKNOWN_MODE;
444 // End of delegates.... Common code below here...
447 // http://www.ibm.com/developerworks/aix/library/au-endianc/index.html
449 // #define is_bigendian() ( (*(char*)&i) == 0 )
451 inline unsigned int is_bigendian(void) {
452 static volatile const unsigned int i = 1;
453 return *(volatile const char*) &i == 0;
456 uint16_t read_uint16(const unsigned char *c, const int pt) {
458 char *p = (char *) &ui;
460 if (!is_bigendian()) { // le -> le (don't swap)
470 // same as above with entrypoint.
472 void stlink_run_at(stlink_t *sl, stm32_addr_t addr) {
473 stlink_write_reg(sl, addr, 15); /* pc register */
477 while (is_core_halted(sl) == 0)
481 void stlink_core_stat(stlink_t *sl) {
485 stlink_print_data(sl);
487 switch (sl->q_buf[0]) {
488 case STLINK_CORE_RUNNING:
489 sl->core_stat = STLINK_CORE_RUNNING;
490 DLOG(" core status: running\n");
492 case STLINK_CORE_HALTED:
493 sl->core_stat = STLINK_CORE_HALTED;
494 DLOG(" core status: halted\n");
497 sl->core_stat = STLINK_CORE_STAT_UNKNOWN;
498 fprintf(stderr, " core status: unknown\n");
502 void stlink_print_data(stlink_t * sl) {
503 if (sl->q_len <= 0 || sl->verbose < 2)
506 fprintf(stdout, "data_len = %d 0x%x\n", sl->q_len, sl->q_len);
508 for (int i = 0; i < sl->q_len; i++) {
511 if (sl->q_data_dir == Q_DATA_OUT)
512 fprintf(stdout, "\n<- 0x%08x ", sl->q_addr + i);
514 fprintf(stdout, "\n-> 0x%08x ", sl->q_addr + i);
517 fprintf(stdout, " %02x", (unsigned int) sl->q_buf[i]);
519 fputs("\n\n", stdout);
522 /* memory mapped file */
524 typedef struct mapped_file {
529 #define MAPPED_FILE_INITIALIZER { NULL, 0 }
531 static int map_file(mapped_file_t* mf, const char* path) {
535 const int fd = open(path, O_RDONLY);
537 fprintf(stderr, "open(%s) == -1\n", path);
541 if (fstat(fd, &st) == -1) {
542 fprintf(stderr, "fstat() == -1\n");
546 mf->base = (uint8_t*) mmap(NULL, st.st_size, PROT_READ, MAP_SHARED, fd, 0);
547 if (mf->base == MAP_FAILED) {
548 fprintf(stderr, "mmap() == MAP_FAILED\n");
552 mf->len = st.st_size;
563 static void unmap_file(mapped_file_t * mf) {
564 munmap((void*) mf->base, mf->len);
565 mf->base = (unsigned char*) MAP_FAILED;
569 static int check_file(stlink_t* sl, mapped_file_t* mf, stm32_addr_t addr) {
572 for (off = 0; off < mf->len; off += sl->flash_pgsz) {
575 /* adjust last page size */
576 size_t cmp_size = sl->flash_pgsz;
577 if ((off + sl->flash_pgsz) > mf->len)
578 cmp_size = mf->len - off;
580 aligned_size = cmp_size;
581 if (aligned_size & (4 - 1))
582 aligned_size = (cmp_size + 4) & ~(4 - 1);
584 stlink_read_mem32(sl, addr + off, aligned_size);
586 if (memcmp(sl->q_buf, mf->base + off, cmp_size))
593 int stlink_fwrite_sram
594 (stlink_t * sl, const char* path, stm32_addr_t addr) {
595 /* write the file in sram at addr */
599 mapped_file_t mf = MAPPED_FILE_INITIALIZER;
601 if (map_file(&mf, path) == -1) {
602 fprintf(stderr, "map_file() == -1\n");
606 /* check addr range is inside the sram */
607 if (addr < sl->sram_base) {
608 fprintf(stderr, "addr too low\n");
610 } else if ((addr + mf.len) < addr) {
611 fprintf(stderr, "addr overruns\n");
613 } else if ((addr + mf.len) > (sl->sram_base + sl->sram_size)) {
614 fprintf(stderr, "addr too high\n");
616 } else if ((addr & 3) || (mf.len & 3)) {
618 fprintf(stderr, "unaligned addr or size\n");
622 /* do the copy by 1k blocks */
623 for (off = 0; off < mf.len; off += 1024) {
625 if ((off + size) > mf.len)
628 memcpy(sl->q_buf, mf.base + off, size);
630 /* round size if needed */
634 stlink_write_mem32(sl, addr + off, size);
637 /* check the file ha been written */
638 if (check_file(sl, &mf, addr) == -1) {
639 fprintf(stderr, "check_file() == -1\n");
651 int stlink_fread(stlink_t* sl, const char* path, stm32_addr_t addr, size_t size) {
652 /* read size bytes from addr to file */
657 const int fd = open(path, O_RDWR | O_TRUNC | O_CREAT, 00700);
659 fprintf(stderr, "open(%s) == -1\n", path);
663 /* do the copy by 1k blocks */
664 for (off = 0; off < size; off += 1024) {
665 size_t read_size = 1024;
666 if ((off + read_size) > size)
667 read_size = off + read_size;
669 /* round size if needed */
671 read_size = (read_size + 4) & ~(3);
673 stlink_read_mem32(sl, addr + off, read_size);
675 if (write(fd, sl->q_buf, read_size) != (ssize_t) read_size) {
676 fprintf(stderr, "write() != read_size\n");
690 int write_buffer_to_sram(stlink_t *sl, flash_loader_t* fl, const uint8_t* buf, size_t size) {
691 /* write the buffer right after the loader */
692 memcpy(sl->q_buf, buf, size);
693 stlink_write_mem8(sl, fl->buf_addr, size);
697 int stlink_erase_flash_page(stlink_t *sl, stm32_addr_t page) {
698 /* page an addr in the page to erase */
700 /* wait for ongoing op to finish */
703 /* unlock if locked */
706 /* set the page erase bit */
707 set_flash_cr_per(sl);
709 /* select the page to erase */
710 write_flash_ar(sl, page);
712 /* start erase operation, reset by hw with bsy bit */
713 set_flash_cr_strt(sl);
715 /* wait for completion */
718 /* relock the flash */
721 /* todo: verify the erased page */
726 int stlink_erase_flash_mass(stlink_t *sl) {
727 /* wait for ongoing op to finish */
730 /* unlock if locked */
733 /* set the mass erase bit */
734 set_flash_cr_mer(sl);
736 /* start erase operation, reset by hw with bsy bit */
737 set_flash_cr_strt(sl);
739 /* wait for completion */
742 /* relock the flash */
745 /* todo: verify the erased memory */
750 int init_flash_loader(stlink_t *sl, flash_loader_t* fl) {
753 /* allocate the loader in sram */
754 if (write_loader_to_sram(sl, &fl->loader_addr, &size) == -1) {
755 fprintf(stderr, "write_loader_to_sram() == -1\n");
759 /* allocate a one page buffer in sram right after loader */
760 fl->buf_addr = fl->loader_addr + size;
765 int write_loader_to_sram(stlink_t *sl, stm32_addr_t* addr, size_t* size) {
766 /* from openocd, contrib/loaders/flash/stm32.s */
767 static const uint8_t loader_code[] = {
768 0x08, 0x4c, /* ldr r4, STM32_FLASH_BASE */
769 0x1c, 0x44, /* add r4, r3 */
770 /* write_half_word: */
771 0x01, 0x23, /* movs r3, #0x01 */
772 0x23, 0x61, /* str r3, [r4, #STM32_FLASH_CR_OFFSET] */
773 0x30, 0xf8, 0x02, 0x3b, /* ldrh r3, [r0], #0x02 */
774 0x21, 0xf8, 0x02, 0x3b, /* strh r3, [r1], #0x02 */
776 0xe3, 0x68, /* ldr r3, [r4, #STM32_FLASH_SR_OFFSET] */
777 0x13, 0xf0, 0x01, 0x0f, /* tst r3, #0x01 */
778 0xfb, 0xd0, /* beq busy */
779 0x13, 0xf0, 0x14, 0x0f, /* tst r3, #0x14 */
780 0x01, 0xd1, /* bne exit */
781 0x01, 0x3a, /* subs r2, r2, #0x01 */
782 0xf0, 0xd1, /* bne write_half_word */
784 0x00, 0xbe, /* bkpt #0x00 */
785 0x00, 0x20, 0x02, 0x40, /* STM32_FLASH_BASE: .word 0x40022000 */
788 memcpy(sl->q_buf, loader_code, sizeof (loader_code));
789 stlink_write_mem32(sl, sl->sram_base, sizeof (loader_code));
791 *addr = sl->sram_base;
792 *size = sizeof (loader_code);
798 int stlink_fcheck_flash(stlink_t *sl, const char* path, stm32_addr_t addr) {
799 /* check the contents of path are at addr */
802 mapped_file_t mf = MAPPED_FILE_INITIALIZER;
804 if (map_file(&mf, path) == -1)
807 res = check_file(sl, &mf, addr);
814 // The stlink_fwrite_flash should not muck with mmapped files inside itself,
815 // and should use this function instead. (Hell, what's the reason behind mmap
816 // there?!) But, as it is not actually used anywhere, nobody cares.
818 #define WRITE_BLOCK_SIZE 0x40
820 int stlink_write_flash(stlink_t *sl, stm32_addr_t addr, uint8_t* base, unsigned len) {
824 /* check addr range is inside the flash */
825 if (addr < sl->flash_base) {
826 fprintf(stderr, "addr too low\n");
828 } else if ((addr + len) < addr) {
829 fprintf(stderr, "addr overruns\n");
831 } else if ((addr + len) > (sl->flash_base + sl->flash_size)) {
832 fprintf(stderr, "addr too high\n");
834 } else if ((addr & 1) || (len & 1)) {
835 fprintf(stderr, "unaligned addr or size\n");
839 /* flash loader initialization */
840 if (init_flash_loader(sl, &fl) == -1) {
841 fprintf(stderr, "init_flash_loader() == -1\n");
845 /* write each page. above WRITE_BLOCK_SIZE fails? */
846 for (off = 0; off < len; off += WRITE_BLOCK_SIZE) {
847 /* adjust last write size */
848 size_t size = WRITE_BLOCK_SIZE;
849 if ((off + WRITE_BLOCK_SIZE) > len)
852 if (run_flash_loader(sl, &fl, addr + off, base + off, size) == -1) {
853 fprintf(stderr, "run_flash_loader(0x%zx) == -1\n", addr + off);
858 for (off = 0; off < len; off += sl->flash_pgsz) {
861 /* adjust last page size */
862 size_t cmp_size = sl->flash_pgsz;
863 if ((off + sl->flash_pgsz) > len)
864 cmp_size = len - off;
866 aligned_size = cmp_size;
867 if (aligned_size & (4 - 1))
868 aligned_size = (cmp_size + 4) & ~(4 - 1);
870 stlink_read_mem32(sl, addr + off, aligned_size);
872 if (memcmp(sl->q_buf, base + off, cmp_size))
879 int stlink_fwrite_flash(stlink_t *sl, const char* path, stm32_addr_t addr) {
880 /* write the file in flash at addr */
884 mapped_file_t mf = MAPPED_FILE_INITIALIZER;
887 if (map_file(&mf, path) == -1) {
888 fprintf(stderr, "map_file() == -1\n");
892 /* check addr range is inside the flash */
893 if (addr < sl->flash_base) {
894 fprintf(stderr, "addr too low\n");
896 } else if ((addr + mf.len) < addr) {
897 fprintf(stderr, "addr overruns\n");
899 } else if ((addr + mf.len) > (sl->flash_base + sl->flash_size)) {
900 fprintf(stderr, "addr too high\n");
902 } else if ((addr & 1) || (mf.len & 1)) {
904 fprintf(stderr, "unaligned addr or size\n");
908 /* erase each page. todo: mass erase faster? */
909 for (off = 0; off < mf.len; off += sl->flash_pgsz) {
910 /* addr must be an addr inside the page */
911 if (stlink_erase_flash_page(sl, addr + off) == -1) {
912 fprintf(stderr, "erase_flash_page(0x%zx) == -1\n", addr + off);
917 /* flash loader initialization */
918 if (init_flash_loader(sl, &fl) == -1) {
919 fprintf(stderr, "init_flash_loader() == -1\n");
923 /* write each page. above WRITE_BLOCK_SIZE fails? */
924 #define WRITE_BLOCK_SIZE 0x40
925 for (off = 0; off < mf.len; off += WRITE_BLOCK_SIZE) {
926 /* adjust last write size */
927 size_t size = WRITE_BLOCK_SIZE;
928 if ((off + WRITE_BLOCK_SIZE) > mf.len)
931 if (run_flash_loader(sl, &fl, addr + off, mf.base + off, size) == -1) {
932 fprintf(stderr, "run_flash_loader(0x%zx) == -1\n", addr + off);
937 /* check the file ha been written */
938 if (check_file(sl, &mf, addr) == -1) {
939 fprintf(stderr, "check_file() == -1\n");
951 int run_flash_loader(stlink_t *sl, flash_loader_t* fl, stm32_addr_t target, const uint8_t* buf, size_t size) {
952 const size_t count = size / sizeof (uint16_t);
954 if (write_buffer_to_sram(sl, fl, buf, size) == -1) {
955 fprintf(stderr, "write_buffer_to_sram() == -1\n");
960 stlink_write_reg(sl, fl->buf_addr, 0); /* source */
961 stlink_write_reg(sl, target, 1); /* target */
962 stlink_write_reg(sl, count, 2); /* count (16 bits half words) */
963 stlink_write_reg(sl, 0, 3); /* flash bank 0 (input) */
964 stlink_write_reg(sl, fl->loader_addr, 15); /* pc register */
966 /* unlock and set programming mode */
973 while (is_core_halted(sl) == 0)
978 /* not all bytes have been written */
980 stlink_read_reg(sl, 2, &rr);
982 fprintf(stderr, "write error, count == %u\n", rr.r[2]);