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  1. #include "imxrt.h"
  2. #include "wiring.h"
  3. #include "usb_dev.h"
  4. #include "debug/printf.h"
  5. // from the linker
  6. extern unsigned long _stextload;
  7. extern unsigned long _stext;
  8. extern unsigned long _etext;
  9. extern unsigned long _sdataload;
  10. extern unsigned long _sdata;
  11. extern unsigned long _edata;
  12. extern unsigned long _sbss;
  13. extern unsigned long _ebss;
  14. __attribute__ ((used, aligned(1024)))
  15. void (* _VectorsRam[160+16])(void);
  16. static void memory_copy(uint32_t *dest, const uint32_t *src, uint32_t *dest_end);
  17. static void memory_clear(uint32_t *dest, uint32_t *dest_end);
  18. static void configure_systick(void);
  19. extern void systick_isr(void);
  20. void configure_cache(void);
  21. void unused_interrupt_vector(void);
  22. void usb_pll_start();
  23. extern void analog_init(void);
  24. extern void pwm_init(void);
  25. uint32_t set_arm_clock(uint32_t frequency);
  26. __attribute__((section(".startup"), optimize("no-tree-loop-distribute-patterns")))
  27. void ResetHandler(void)
  28. {
  29. unsigned int i;
  30. //force the stack to begin at some arbitrary location
  31. //__asm__ volatile("mov sp, %0" : : "r" (0x20010000) : );
  32. // pin 13 - if startup crashes, use this to turn on the LED early for troubleshooting
  33. IOMUXC_SW_MUX_CTL_PAD_GPIO_B0_03 = 5;
  34. IOMUXC_SW_PAD_CTL_PAD_GPIO_B0_03 = IOMUXC_PAD_DSE(7);
  35. GPIO2_GDIR |= (1<<3);
  36. GPIO2_DR_SET = (1<<3);
  37. // Initialize memory
  38. memory_copy(&_stext, &_stextload, &_etext);
  39. memory_copy(&_sdata, &_sdataload, &_edata);
  40. memory_clear(&_sbss, &_ebss);
  41. // enable FPU
  42. SCB_CPACR = 0x00F00000;
  43. // set up blank interrupt & exception vector table
  44. for (i=0; i < NVIC_NUM_INTERRUPTS + 16; i++) _VectorsRam[i] = &unused_interrupt_vector;
  45. for (i=0; i < NVIC_NUM_INTERRUPTS; i++) NVIC_SET_PRIORITY(i, 128);
  46. SCB_VTOR = (uint32_t)_VectorsRam;
  47. // Configure clocks
  48. // TODO: make sure all affected peripherals are turned off!
  49. // PIT & GPT timers to run from 24 MHz clock (independent of CPU speed)
  50. CCM_CSCMR1 = (CCM_CSCMR1 & ~CCM_CSCMR1_PERCLK_PODF(0x3F)) | CCM_CSCMR1_PERCLK_CLK_SEL;
  51. // UARTs run from 24 MHz clock (works if PLL3 off or bypassed)
  52. CCM_CSCDR1 = (CCM_CSCDR1 & ~CCM_CSCDR1_UART_CLK_PODF(0x3F)) | CCM_CSCDR1_UART_CLK_SEL;
  53. // must enable PRINT_DEBUG_STUFF in debug/print.h
  54. printf_debug_init();
  55. printf("\n***********IMXRT Startup**********\n");
  56. printf("test %d %d %d\n", 1, -1234567, 3);
  57. configure_cache();
  58. configure_systick();
  59. usb_pll_start();
  60. set_arm_clock(600000000);
  61. //set_arm_clock(984000000); Ludicrous Speed
  62. uint32_t armpll = CCM_ANALOG_PLL_ARM;
  63. uint32_t armdiv = CCM_CACRR;
  64. uint32_t cbcdr = CCM_CBCDR;
  65. uint32_t cbcmr = CCM_CBCMR;
  66. printf("ARM PLL = %u MHz\n", (armpll & 0x7F) * 12);
  67. printf("ARM divisor = %u\n", armdiv + 1);
  68. printf("AHB divisor = %u\n", ((cbcdr >> 10) & 7) + 1);
  69. printf("IPG divisor = %u\n", ((cbcdr >> 8) & 3) + 1);
  70. // TODO: wait at least 20ms before starting USB
  71. usb_init();
  72. analog_init();
  73. pwm_init();
  74. // TODO: wait tat least 300ms before calling setup
  75. printf("before setup\n");
  76. setup();
  77. printf("after setup\n");
  78. while (1) {
  79. //printf("loop\n");
  80. loop();
  81. }
  82. }
  83. // ARM SysTick is used for most Ardiuno timing functions, delay(), millis(),
  84. // micros(). SysTick can run from either the ARM core clock, or from an
  85. // "external" clock. NXP documents it as "24 MHz XTALOSC can be the external
  86. // clock source of SYSTICK" (RT1052 ref manual, rev 1, page 411). However,
  87. // NXP actually hid an undocumented divide-by-240 circuit in the hardware, so
  88. // the external clock is really 100 kHz. We use this clock rather than the
  89. // ARM clock, to allow SysTick to maintain correct timing even when we change
  90. // the ARM clock to run at different speeds.
  91. #define SYSTICK_EXT_FREQ 100000
  92. static void configure_systick(void)
  93. {
  94. _VectorsRam[15] = systick_isr;
  95. SYST_RVR = (SYSTICK_EXT_FREQ / 1000) - 1;
  96. SYST_CVR = 0;
  97. SYST_CSR = SYST_CSR_TICKINT | SYST_CSR_ENABLE;
  98. ARM_DEMCR |= ARM_DEMCR_TRCENA;
  99. ARM_DWT_CTRL |= ARM_DWT_CTRL_CYCCNTENA; // turn on cycle counter
  100. }
  101. // concise defines for SCB_MPU_RASR and SCB_MPU_RBAR, ARM DDI0403E, pg 696
  102. #define NOEXEC SCB_MPU_RASR_XN
  103. #define READONLY SCB_MPU_RASR_AP(7)
  104. #define READWRITE SCB_MPU_RASR_AP(3)
  105. #define NOACCESS SCB_MPU_RASR_AP(0)
  106. #define MEM_CACHE_WT SCB_MPU_RASR_TEX(0) | SCB_MPU_RASR_C
  107. #define MEM_CACHE_WB SCB_MPU_RASR_TEX(0) | SCB_MPU_RASR_C | SCB_MPU_RASR_B
  108. #define MEM_CACHE_WBWA SCB_MPU_RASR_TEX(1) | SCB_MPU_RASR_C | SCB_MPU_RASR_B
  109. #define MEM_NOCACHE SCB_MPU_RASR_TEX(1)
  110. #define DEV_NOCACHE SCB_MPU_RASR_TEX(2)
  111. #define SIZE_128K (SCB_MPU_RASR_SIZE(16) | SCB_MPU_RASR_ENABLE)
  112. #define SIZE_256K (SCB_MPU_RASR_SIZE(17) | SCB_MPU_RASR_ENABLE)
  113. #define SIZE_512K (SCB_MPU_RASR_SIZE(18) | SCB_MPU_RASR_ENABLE)
  114. #define SIZE_1M (SCB_MPU_RASR_SIZE(19) | SCB_MPU_RASR_ENABLE)
  115. #define SIZE_2M (SCB_MPU_RASR_SIZE(20) | SCB_MPU_RASR_ENABLE)
  116. #define SIZE_4M (SCB_MPU_RASR_SIZE(21) | SCB_MPU_RASR_ENABLE)
  117. #define SIZE_8M (SCB_MPU_RASR_SIZE(22) | SCB_MPU_RASR_ENABLE)
  118. #define SIZE_16M (SCB_MPU_RASR_SIZE(23) | SCB_MPU_RASR_ENABLE)
  119. #define SIZE_32M (SCB_MPU_RASR_SIZE(24) | SCB_MPU_RASR_ENABLE)
  120. #define SIZE_64M (SCB_MPU_RASR_SIZE(25) | SCB_MPU_RASR_ENABLE)
  121. #define REGION(n) (SCB_MPU_RBAR_REGION(n) | SCB_MPU_RBAR_VALID)
  122. __attribute__((section(".progmem")))
  123. void configure_cache(void)
  124. {
  125. //printf("MPU_TYPE = %08lX\n", SCB_MPU_TYPE);
  126. //printf("CCR = %08lX\n", SCB_CCR);
  127. // TODO: check if caches already active - skip?
  128. SCB_MPU_CTRL = 0; // turn off MPU
  129. SCB_MPU_RBAR = 0x00000000 | REGION(0); // ITCM
  130. SCB_MPU_RASR = MEM_NOCACHE | READWRITE | SIZE_512K;
  131. SCB_MPU_RBAR = 0x00200000 | REGION(1); // Boot ROM
  132. SCB_MPU_RASR = MEM_CACHE_WT | READONLY | SIZE_128K;
  133. SCB_MPU_RBAR = 0x20000000 | REGION(2); // DTCM
  134. SCB_MPU_RASR = MEM_NOCACHE | READWRITE | NOEXEC | SIZE_512K;
  135. SCB_MPU_RBAR = 0x20200000 | REGION(3); // RAM (AXI bus)
  136. SCB_MPU_RASR = MEM_CACHE_WBWA | READWRITE | NOEXEC | SIZE_1M;
  137. SCB_MPU_RBAR = 0x40000000 | REGION(4); // Peripherals
  138. SCB_MPU_RASR = DEV_NOCACHE | READWRITE | NOEXEC | SIZE_64M;
  139. SCB_MPU_RBAR = 0x60000000 | REGION(5); // QSPI Flash
  140. SCB_MPU_RASR = MEM_CACHE_WBWA | READONLY | SIZE_16M;
  141. // TODO: 32 byte sub-region at 0x00000000 with NOACCESS, to trap NULL pointer deref
  142. // TODO: protect access to power supply config
  143. // TODO: 32 byte sub-region at end of .bss section with NOACCESS, to trap stack overflow
  144. SCB_MPU_CTRL = SCB_MPU_CTRL_ENABLE;
  145. // cache enable, ARM DDI0403E, pg 628
  146. asm("dsb");
  147. asm("isb");
  148. SCB_CACHE_ICIALLU = 0;
  149. asm("dsb");
  150. asm("isb");
  151. SCB_CCR |= (SCB_CCR_IC | SCB_CCR_DC);
  152. }
  153. __attribute__((section(".progmem")))
  154. void usb_pll_start()
  155. {
  156. while (1) {
  157. uint32_t n = CCM_ANALOG_PLL_USB1; // pg 759
  158. printf("CCM_ANALOG_PLL_USB1=%08lX\n", n);
  159. if (n & CCM_ANALOG_PLL_USB1_DIV_SELECT) {
  160. printf(" ERROR, 528 MHz mode!\n"); // never supposed to use this mode!
  161. CCM_ANALOG_PLL_USB1_CLR = 0xC000; // bypass 24 MHz
  162. CCM_ANALOG_PLL_USB1_SET = CCM_ANALOG_PLL_USB1_BYPASS; // bypass
  163. CCM_ANALOG_PLL_USB1_CLR = CCM_ANALOG_PLL_USB1_POWER | // power down
  164. CCM_ANALOG_PLL_USB1_DIV_SELECT | // use 480 MHz
  165. CCM_ANALOG_PLL_USB1_ENABLE | // disable
  166. CCM_ANALOG_PLL_USB1_EN_USB_CLKS; // disable usb
  167. continue;
  168. }
  169. if (!(n & CCM_ANALOG_PLL_USB1_ENABLE)) {
  170. printf(" enable PLL\n");
  171. // TODO: should this be done so early, or later??
  172. CCM_ANALOG_PLL_USB1_SET = CCM_ANALOG_PLL_USB1_ENABLE;
  173. continue;
  174. }
  175. if (!(n & CCM_ANALOG_PLL_USB1_POWER)) {
  176. printf(" power up PLL\n");
  177. CCM_ANALOG_PLL_USB1_SET = CCM_ANALOG_PLL_USB1_POWER;
  178. continue;
  179. }
  180. if (!(n & CCM_ANALOG_PLL_USB1_LOCK)) {
  181. printf(" wait for lock\n");
  182. continue;
  183. }
  184. if (n & CCM_ANALOG_PLL_USB1_BYPASS) {
  185. printf(" turn off bypass\n");
  186. CCM_ANALOG_PLL_USB1_CLR = CCM_ANALOG_PLL_USB1_BYPASS;
  187. continue;
  188. }
  189. if (!(n & CCM_ANALOG_PLL_USB1_EN_USB_CLKS)) {
  190. printf(" enable USB clocks\n");
  191. CCM_ANALOG_PLL_USB1_SET = CCM_ANALOG_PLL_USB1_EN_USB_CLKS;
  192. continue;
  193. }
  194. return; // everything is as it should be :-)
  195. }
  196. }
  197. // Stack frame
  198. // xPSR
  199. // ReturnAddress
  200. // LR (R14) - typically FFFFFFF9 for IRQ or Exception
  201. // R12
  202. // R3
  203. // R2
  204. // R1
  205. // R0
  206. void unused_interrupt_vector(void)
  207. {
  208. // TODO: polling Serial to complete buffered transmits
  209. #ifdef PRINT_DEBUG_STUFF
  210. uint32_t addr;
  211. asm volatile("mrs %0, ipsr\n" : "=r" (addr)::);
  212. printf("\nirq %d\n", addr & 0x1FF);
  213. asm("ldr %0, [sp, #52]" : "=r" (addr) ::);
  214. printf(" %x\n", addr);
  215. asm("ldr %0, [sp, #48]" : "=r" (addr) ::);
  216. printf(" %x\n", addr);
  217. asm("ldr %0, [sp, #44]" : "=r" (addr) ::);
  218. printf(" %x\n", addr);
  219. asm("ldr %0, [sp, #40]" : "=r" (addr) ::);
  220. printf(" %x\n", addr);
  221. asm("ldr %0, [sp, #36]" : "=r" (addr) ::);
  222. printf(" %x\n", addr);
  223. asm("ldr %0, [sp, #33]" : "=r" (addr) ::);
  224. printf(" %x\n", addr);
  225. asm("ldr %0, [sp, #34]" : "=r" (addr) ::);
  226. printf(" %x\n", addr);
  227. asm("ldr %0, [sp, #28]" : "=r" (addr) ::);
  228. printf(" %x\n", addr);
  229. asm("ldr %0, [sp, #24]" : "=r" (addr) ::);
  230. printf(" %x\n", addr);
  231. asm("ldr %0, [sp, #20]" : "=r" (addr) ::);
  232. printf(" %x\n", addr);
  233. asm("ldr %0, [sp, #16]" : "=r" (addr) ::);
  234. printf(" %x\n", addr);
  235. asm("ldr %0, [sp, #12]" : "=r" (addr) ::);
  236. printf(" %x\n", addr);
  237. asm("ldr %0, [sp, #8]" : "=r" (addr) ::);
  238. printf(" %x\n", addr);
  239. asm("ldr %0, [sp, #4]" : "=r" (addr) ::);
  240. printf(" %x\n", addr);
  241. asm("ldr %0, [sp, #0]" : "=r" (addr) ::);
  242. printf(" %x\n", addr);
  243. #endif
  244. #if 1
  245. IOMUXC_SW_MUX_CTL_PAD_GPIO_B0_03 = 5; // pin 13
  246. IOMUXC_SW_PAD_CTL_PAD_GPIO_B0_03 = IOMUXC_PAD_DSE(7);
  247. GPIO2_GDIR |= (1<<3);
  248. GPIO2_DR_SET = (1<<3);
  249. while (1) {
  250. volatile uint32_t n;
  251. GPIO2_DR_SET = (1<<3); //digitalWrite(13, HIGH);
  252. for (n=0; n < 2000000; n++) ;
  253. GPIO2_DR_CLEAR = (1<<3); //digitalWrite(13, LOW);
  254. for (n=0; n < 1500000; n++) ;
  255. }
  256. #else
  257. while (1) {
  258. }
  259. #endif
  260. }
  261. __attribute__((section(".startup"), optimize("no-tree-loop-distribute-patterns")))
  262. static void memory_copy(uint32_t *dest, const uint32_t *src, uint32_t *dest_end)
  263. {
  264. if (dest == src) return;
  265. while (dest < dest_end) {
  266. *dest++ = *src++;
  267. }
  268. }
  269. __attribute__((section(".startup"), optimize("no-tree-loop-distribute-patterns")))
  270. static void memory_clear(uint32_t *dest, uint32_t *dest_end)
  271. {
  272. while (dest < dest_end) {
  273. *dest++ = 0;
  274. }
  275. }
  276. // syscall functions need to be in the same C file as the entry point "ResetVector"
  277. // otherwise the linker will discard them in some cases.
  278. #include <errno.h>
  279. // from the linker script
  280. extern unsigned long _heap_start;
  281. extern unsigned long _heap_end;
  282. char *__brkval = (char *)&_heap_start;
  283. void * _sbrk(int incr)
  284. {
  285. char *prev = __brkval;
  286. if (incr != 0) {
  287. if (prev + incr > (char *)&_heap_end) {
  288. errno = ENOMEM;
  289. return (void *)-1;
  290. }
  291. __brkval = prev + incr;
  292. }
  293. return prev;
  294. }
  295. __attribute__((weak))
  296. int _read(int file, char *ptr, int len)
  297. {
  298. return 0;
  299. }
  300. __attribute__((weak))
  301. int _close(int fd)
  302. {
  303. return -1;
  304. }
  305. #include <sys/stat.h>
  306. __attribute__((weak))
  307. int _fstat(int fd, struct stat *st)
  308. {
  309. st->st_mode = S_IFCHR;
  310. return 0;
  311. }
  312. __attribute__((weak))
  313. int _isatty(int fd)
  314. {
  315. return 1;
  316. }
  317. __attribute__((weak))
  318. int _lseek(int fd, long long offset, int whence)
  319. {
  320. return -1;
  321. }
  322. __attribute__((weak))
  323. void _exit(int status)
  324. {
  325. while (1);
  326. }
  327. __attribute__((weak))
  328. void __cxa_pure_virtual()
  329. {
  330. while (1);
  331. }
  332. __attribute__((weak))
  333. int __cxa_guard_acquire (char *g)
  334. {
  335. return !(*g);
  336. }
  337. __attribute__((weak))
  338. void __cxa_guard_release(char *g)
  339. {
  340. *g = 1;
  341. }
  342. __attribute__((weak))
  343. void abort(void)
  344. {
  345. while (1) ;
  346. }