sysmgr(5078).c 17 KB

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  1. #include "sysmgr.h"
  2. #include <nrfx.h>
  3. #include <nrf_delay.h>
  4. #include <drv_rtc.h>
  5. #include <stdio.h>
  6. #include <stdlib.h>
  7. #include <string.h>
  8. #include <stdarg.h>
  9. #include "nrf_spi.h"
  10. #include "nrf_drv_spi.h"
  11. #include "nrf_pwr_mgmt.h"
  12. #include "main.h"
  13. stSystemTimer SystemTimer;
  14. stSystemManager SystemManager;
  15. extern const nrf_drv_spi_t spi; /**< SPI instance. */
  16. extern volatile bool spi_xfer_done; /**< Flag used to indicate that SPI instance completed the transfer. */
  17. uint8_t m_tx_buf[64]; /**< TX buffer. */
  18. uint8_t m_rx_buf[64]; /**< RX buffer. */
  19. uint8_t m_length; /**< Transfer length. */
  20. RegMacPool_t RegMacPool;
  21. const char *fds_err_str(ret_code_t ret)
  22. {
  23. /* Array to map FDS return values to strings. */
  24. static char const * err_str[] =
  25. {
  26. "FDS_ERR_OPERATION_TIMEOUT",
  27. "FDS_ERR_NOT_INITIALIZED",
  28. "FDS_ERR_UNALIGNED_ADDR",
  29. "FDS_ERR_INVALID_ARG",
  30. "FDS_ERR_NULL_ARG",
  31. "FDS_ERR_NO_OPEN_RECORDS",
  32. "FDS_ERR_NO_SPACE_IN_FLASH",
  33. "FDS_ERR_NO_SPACE_IN_QUEUES",
  34. "FDS_ERR_RECORD_TOO_LARGE",
  35. "FDS_ERR_NOT_FOUND",
  36. "FDS_ERR_NO_PAGES",
  37. "FDS_ERR_USER_LIMIT_REACHED",
  38. "FDS_ERR_CRC_CHECK_FAILED",
  39. "FDS_ERR_BUSY",
  40. "FDS_ERR_INTERNAL",
  41. };
  42. return err_str[ret - NRF_ERROR_FDS_ERR_BASE];
  43. }
  44. void ParkSysInit()
  45. {
  46. SystemTimer.TMR_SYS_OFF = 3;
  47. }
  48. void ParkPowerOff()
  49. {
  50. SystemTimer.TMR_SYS_OFF = 0;
  51. }
  52. /* Dummy configuration data. */
  53. static configuration_t m_dummy_cfg =
  54. {
  55. .config1_on = false,
  56. .config2_on = true,
  57. .boot_count = 0x0,
  58. .device_name = "dummy",
  59. };
  60. static void record_write(uint32_t fid,
  61. uint32_t key,
  62. void const * p_data,
  63. uint32_t len)
  64. {
  65. fds_record_t const rec =
  66. {
  67. .file_id = fid,
  68. .key = key,
  69. .data.p_data = p_data,
  70. .data.length_words = (len + 3) / sizeof(uint32_t)
  71. };
  72. NRF_LOG_INFO(
  73. "writing record to flash...\n"
  74. "file: 0x%x, key: 0x%x, \"%s\", len: %u bytes\n",
  75. fid, key, p_data, len);
  76. fds_record_desc_t desc = {0};
  77. desc.record_id = 1;
  78. //ret_code_t rc = fds_record_write(NULL, &rec);
  79. ret_code_t rc = fds_record_write(&desc, &rec);
  80. if (rc != NRF_SUCCESS)
  81. {
  82. NRF_LOG_INFO(
  83. "error: fds_record_write() returned %s.\n",
  84. fds_err_str(rc));
  85. }
  86. }
  87. static void record_update( configuration_t const * p_cfg)
  88. {
  89. fds_record_desc_t desc = {0};
  90. fds_find_token_t ftok = {0};
  91. if (fds_record_find(CONFIG_FILE, CONFIG_REC_KEY, &desc, &ftok) == NRF_SUCCESS)
  92. {
  93. fds_record_t const rec =
  94. {
  95. .file_id = CONFIG_FILE,
  96. .key = CONFIG_REC_KEY,
  97. .data.p_data = p_cfg,
  98. .data.length_words = (sizeof(configuration_t) + 3) / sizeof(uint32_t)
  99. };
  100. ret_code_t rc = fds_record_update(&desc, &rec);
  101. if (rc != NRF_SUCCESS)
  102. {
  103. NRF_LOG_INFO( "error: fds_record_update() returned %s.\n",
  104. fds_err_str(rc));
  105. }
  106. }
  107. else
  108. {
  109. NRF_LOG_INFO( "error: could not find config file.\n");
  110. }
  111. }
  112. static void record_delete( uint32_t fid, uint32_t key)
  113. {
  114. fds_find_token_t tok = {0};
  115. fds_record_desc_t desc = {0};
  116. NRF_LOG_INFO(
  117. "deleting record...\n"
  118. "file: 0x%x, key: 0x%x\n",
  119. fid,
  120. key);
  121. if (fds_record_find(fid, key, &desc, &tok) == NRF_SUCCESS)
  122. {
  123. ret_code_t rc = fds_record_delete(&desc);
  124. if (rc != NRF_SUCCESS)
  125. {
  126. NRF_LOG_INFO(
  127. "error: fds_record_delete() returned %s.\n", fds_err_str(rc));
  128. return;
  129. }
  130. NRF_LOG_INFO( "record id: 0x%x\n", desc.record_id);
  131. }
  132. else
  133. {
  134. NRF_LOG_INFO( "error: record not found!\n");
  135. }
  136. }
  137. bool record_delete_next(void)
  138. {
  139. fds_find_token_t tok = {0};
  140. fds_record_desc_t desc = {0};
  141. if (fds_record_iterate(&desc, &tok) == NRF_SUCCESS)
  142. {
  143. ret_code_t rc = fds_record_delete(&desc);
  144. if (rc != NRF_SUCCESS)
  145. {
  146. return false;
  147. }
  148. return true;
  149. }
  150. else
  151. {
  152. /* No records left to delete. */
  153. return false;
  154. }
  155. }
  156. static void print_cfg_cmd( size_t argc, char ** argv)
  157. {
  158. fds_record_desc_t desc = {0};
  159. fds_find_token_t tok = {0};
  160. while (fds_record_find(CONFIG_FILE, CONFIG_REC_KEY, &desc, &tok) == NRF_SUCCESS)
  161. {
  162. ret_code_t rc;
  163. fds_flash_record_t frec = {0};
  164. rc = fds_record_open(&desc, &frec);
  165. switch (rc)
  166. {
  167. case NRF_SUCCESS:
  168. break;
  169. case FDS_ERR_CRC_CHECK_FAILED:
  170. NRF_LOG_INFO( "error: CRC check failed!\n");
  171. continue;
  172. case FDS_ERR_NOT_FOUND:
  173. NRF_LOG_INFO( "error: record not found!\n");
  174. continue;
  175. default:
  176. {
  177. NRF_LOG_INFO(
  178. "error: unexpecte error %s.\n",
  179. fds_err_str(rc));
  180. continue;
  181. }
  182. }
  183. configuration_t * p_cfg = (configuration_t *)(frec.p_data);
  184. NRF_LOG_INFO(
  185. "config1:\t%s\n"
  186. "config2:\t%s\n"
  187. "boot count:\t%u\n"
  188. "device name:\t%s\n",
  189. p_cfg->config1_on ? "on" : "off",
  190. p_cfg->config2_on ? "on" : "off",
  191. p_cfg->boot_count,
  192. p_cfg->device_name);
  193. rc = fds_record_close(&desc);
  194. APP_ERROR_CHECK(rc);
  195. }
  196. }
  197. static void print_all_cmd( )
  198. {
  199. fds_find_token_t tok = {0};
  200. fds_record_desc_t desc = {0};
  201. uint8_t *data;
  202. NRF_LOG_INFO("rec. id \t file id \t rec. key \t length");
  203. while (fds_record_iterate(&desc, &tok) != FDS_ERR_NOT_FOUND)
  204. {
  205. ret_code_t rc;
  206. fds_flash_record_t frec = {0};
  207. rc = fds_record_open(&desc, &frec);
  208. switch (rc)
  209. {
  210. case NRF_SUCCESS:
  211. break;
  212. case FDS_ERR_CRC_CHECK_FAILED:
  213. NRF_LOG_INFO( "error: CRC check failed!\n");
  214. continue;
  215. case FDS_ERR_NOT_FOUND:
  216. NRF_LOG_INFO( "error: record not found!\n");
  217. continue;
  218. default:
  219. {
  220. NRF_LOG_INFO("error: unexpecte error %s.\n", fds_err_str(rc));
  221. continue;
  222. }
  223. }
  224. uint32_t const len = frec.p_header->length_words * sizeof(uint32_t);
  225. NRF_LOG_INFO( " 0x%04x"
  226. "\t 0x%04x"
  227. "\t 0x%04x"
  228. "\t %4u bytes\t",
  229. frec.p_header->record_id,
  230. frec.p_header->file_id,
  231. frec.p_header->record_key,
  232. len);
  233. data = (uint8_t *) frec.p_data;
  234. for (uint8_t i=0;i<len;i++)
  235. {
  236. NRF_LOG_RAW_INFO( "%c",data[i]);
  237. }
  238. NRF_LOG_INFO("\n");
  239. rc = fds_record_close(&desc);
  240. APP_ERROR_CHECK(rc);
  241. }
  242. }
  243. void RegMac(char* str)
  244. {
  245. print_all_cmd();
  246. NRF_LOG_RAW_INFO("Registration MAC : %s\n", str);
  247. RegMacPool.Count++;
  248. record_write(1, RegMacPool.Count, str, 12);
  249. print_all_cmd();
  250. }
  251. void RegMacDelteAll()
  252. {
  253. bool next;
  254. #if 1
  255. while(1)
  256. {
  257. next = record_delete_next();
  258. if (!next)
  259. {
  260. NRF_LOG_INFO("No records left to delete.");
  261. break;
  262. }
  263. nrf_delay_ms(20);
  264. }
  265. #endif
  266. memset( &RegMacPool, 0, sizeof(RegMacPool));
  267. }
  268. void LoadRegMac()
  269. {
  270. fds_find_token_t tok = {0};
  271. fds_record_desc_t desc = {0};
  272. uint8_t *data;
  273. char tmpBuf[15];
  274. NRF_LOG_INFO(
  275. "\nrec. id\t"
  276. "\tfile id\t"
  277. "\trec. key"
  278. "\tlength\tmac\n");
  279. while (fds_record_iterate(&desc, &tok) != FDS_ERR_NOT_FOUND)
  280. {
  281. ret_code_t rc;
  282. fds_flash_record_t frec = {0};
  283. rc = fds_record_open(&desc, &frec);
  284. switch (rc)
  285. {
  286. case NRF_SUCCESS:
  287. break;
  288. case FDS_ERR_CRC_CHECK_FAILED:
  289. NRF_LOG_INFO("error: CRC check failed!\n");
  290. continue;
  291. case FDS_ERR_NOT_FOUND:
  292. NRF_LOG_INFO("error: record not found!\n");
  293. continue;
  294. default:
  295. {
  296. NRF_LOG_INFO("error: unexpecte error %s.\n", fds_err_str(rc));
  297. continue;
  298. }
  299. }
  300. uint32_t const len = frec.p_header->length_words * sizeof(uint32_t);
  301. NRF_LOG_RAW_INFO(
  302. " 0x%04x\t"
  303. "\t 0x%04x\t"
  304. "\t 0x%04x\t"
  305. "\t %4u bytes\t",
  306. frec.p_header->record_id,
  307. frec.p_header->file_id,
  308. frec.p_header->record_key,
  309. len);
  310. data = (uint8_t *) frec.p_data;
  311. if( RegMacPool.Count >= 5 )
  312. {
  313. NRF_LOG_RAW_INFO( "Mac Pool Over\n");
  314. return;
  315. }
  316. RegMacPool.Mac[RegMacPool.Count][12] = 0;
  317. strncpy( RegMacPool.Mac[RegMacPool.Count++], data, 12);
  318. //for (uint8_t i=0;i<len;i++)
  319. {
  320. // NRF_LOG_RAW_INFO( "%c",data[i]);
  321. }
  322. //NRF_LOG_RAW_INFO( "\n");
  323. NRF_LOG_RAW_INFO( "%s\n",RegMacPool.Mac[RegMacPool.Count-1]);
  324. rc = fds_record_close(&desc);
  325. APP_ERROR_CHECK(rc);
  326. }
  327. }
  328. void LoadReceiverMac()
  329. {
  330. fds_find_token_t tok = {0};
  331. fds_record_desc_t desc = {0};
  332. uint8_t *data;
  333. char tmpBuf[15];
  334. NRF_LOG_INFO(
  335. "\nrec. id\t"
  336. "\tfile id\t"
  337. "\trec. key"
  338. "\tlength\tmac\n");
  339. while (fds_record_iterate(&desc, &tok) != FDS_ERR_NOT_FOUND)
  340. {
  341. ret_code_t rc;
  342. fds_flash_record_t frec = {0};
  343. rc = fds_record_open(&desc, &frec);
  344. switch (rc)
  345. {
  346. case NRF_SUCCESS:
  347. break;
  348. case FDS_ERR_CRC_CHECK_FAILED:
  349. NRF_LOG_INFO("error: CRC check failed!\n");
  350. continue;
  351. case FDS_ERR_NOT_FOUND:
  352. NRF_LOG_INFO("error: record not found!\n");
  353. continue;
  354. default:
  355. {
  356. NRF_LOG_INFO("error: unexpecte error %s.\n", fds_err_str(rc));
  357. continue;
  358. }
  359. }
  360. uint32_t const len = frec.p_header->length_words * sizeof(uint32_t);
  361. NRF_LOG_RAW_INFO(
  362. " 0x%04x\t"
  363. "\t 0x%04x\t"
  364. "\t 0x%04x\t"
  365. "\t %4u bytes\t",
  366. frec.p_header->record_id,
  367. frec.p_header->file_id,
  368. frec.p_header->record_key,
  369. len);
  370. data = (uint8_t *) frec.p_data;
  371. strncpy( SystemManager.StrRegPeerAddr, data, 12);
  372. strncpy( tmpBuf, SystemManager.StrRegPeerAddr, 12);
  373. SystemManager.StrRegPeerAddr[12] = 0;
  374. tmpBuf[12] = 0;
  375. NRF_LOG_RAW_INFO( "%s\n",SystemManager.StrRegPeerAddr);
  376. SystemManager.RegPeerAddr[5] = (uint8_t)strtol(&tmpBuf[10], NULL, 16); tmpBuf[10] = 0;
  377. SystemManager.RegPeerAddr[4] = (uint8_t)strtol(&tmpBuf[8], NULL, 16); tmpBuf[8] = 0;
  378. SystemManager.RegPeerAddr[3] = (uint8_t)strtol(&tmpBuf[6], NULL, 16); tmpBuf[6] = 0;
  379. SystemManager.RegPeerAddr[2] = (uint8_t)strtol(&tmpBuf[4], NULL, 16); tmpBuf[4] = 0;
  380. SystemManager.RegPeerAddr[1] = (uint8_t)strtol(&tmpBuf[2], NULL, 16); tmpBuf[2] = 0;
  381. SystemManager.RegPeerAddr[0] = (uint8_t)strtol(&tmpBuf[0], NULL, 16);
  382. rc = fds_record_close(&desc);
  383. APP_ERROR_CHECK(rc);
  384. }
  385. }
  386. void SaveRegMac(char* mac)
  387. {
  388. int i;
  389. if( RegMacPool.Count>= 5 )
  390. return;
  391. for( i=0; i<RegMacPool.Count; i++)
  392. {
  393. if( strncmp( RegMacPool.Mac[i], mac, 12) == 0 )
  394. {
  395. NRF_LOG_RAW_INFO( "Allready Registrated\n");
  396. return;
  397. }
  398. }
  399. RegMacPool.Mac[RegMacPool.Count][12] = 0;
  400. strncpy( RegMacPool.Mac[RegMacPool.Count], mac, 12);
  401. record_write(1, RegMacPool.Count+1, mac, 12);
  402. RegMacPool.Count++;
  403. }
  404. void FlashTest()
  405. {
  406. static uint8_t m_data[256];
  407. int len;
  408. sprintf(m_data, "hello-%d", 1);
  409. len = strlen(m_data);
  410. record_write( 1, 1, m_data, len);
  411. sprintf(m_data, "hello-%d", 2);
  412. record_write( 1, 2, m_data, len);
  413. print_all_cmd();
  414. }
  415. void SaveReceiverMac(char* mac)
  416. {
  417. static uint8_t m_data[256];
  418. mac[12] = 0;
  419. sprintf(m_data, "%s", mac);
  420. NRF_LOG_RAW_INFO( "===> SaveReceiverMac : %s\n", m_data);
  421. record_write(1,1, m_data, 12);
  422. print_all_cmd();
  423. //FlashTest();
  424. }
  425. int FindRegMac(char* mac)
  426. {
  427. int i;
  428. for( i=0; i<RegMacPool.Count; i++)
  429. {
  430. if( strncmp( RegMacPool.Mac[i], mac, 12) == 0 )
  431. {
  432. NRF_LOG_RAW_INFO( "Valid Mac\n");
  433. return 1;
  434. }
  435. }
  436. return 0;
  437. }
  438. void DisplayRegMac()
  439. {
  440. print_all_cmd( );
  441. }
  442. void SetMacAddress(uint8_t* addr)
  443. {
  444. sd_ble_gap_addr_get(&old_ble_addr);
  445. ble_gap_addr_t dd;
  446. dd.addr_id_peer = 0;
  447. dd.addr_type = BLE_GAP_ADDR_TYPE_PUBLIC;
  448. dd.addr[0] = addr[0];
  449. dd.addr[1] = addr[1];
  450. //dd.addr[2] = addr[2];
  451. dd.addr[2] = 0x57;
  452. dd.addr[3] = addr[3];
  453. dd.addr[4] = addr[4];
  454. dd.addr[5] = addr[5];
  455. sd_ble_gap_addr_set(&dd);
  456. sd_ble_gap_addr_get(&new_ble_addr);
  457. }
  458. HSKey Key[4];
  459. void KeyInit(void)
  460. {
  461. Key[KEY_SELECT].longPressTimeOne = 2;
  462. Key[KEY_UP].longPressTimeOne = 2;
  463. //Key[KEY_COUNTER].longPressTimeKeep = 4;
  464. }
  465. //50ms key polling
  466. void ReadKEY(void)
  467. {
  468. static int key_poll_count = 0;
  469. if( SystemTimer.TIM_KEY < 100 )
  470. return;
  471. SystemTimer.TIM_KEY = 0;
  472. if( Key[KEY_SELECT].softRelease == 1 )
  473. return;
  474. if( key_poll_count == 2 )
  475. {
  476. if( nrf_gpio_pin_read(BSP_BUTTON_1) == true )
  477. {
  478. if( SystemManager.EmgSendButton == 10 )
  479. {
  480. SystemManager.EmgSendButton = BUTTON_TEST;
  481. Key[KEY_SELECT].softRelease = 1;
  482. }
  483. }
  484. }
  485. key_poll_count++;
  486. if( nrf_gpio_pin_read(BSP_BUTTON_1) == false )
  487. {
  488. Key[KEY_SELECT].pressTime++;
  489. nrf_pwr_mgmt_feed();
  490. if( Key[KEY_SELECT].pressTime>20)
  491. {
  492. Key[KEY_SELECT].softRelease = 1;
  493. KeySelectLongPressedOne();
  494. }
  495. }
  496. }
  497. void KeySelectLongPressedOne(void)
  498. {
  499. NRF_LOG_INFO("KeySelectLongPressedOne\r\n" );
  500. SystemManager.EmgSendButton = BUTTON_REG;
  501. }
  502. void PortInputCfg(void)
  503. {
  504. #if 1
  505. uint32_t i;
  506. for (i = 17; i <= 20; ++i)
  507. {
  508. nrf_gpio_cfg_input(i, NRF_GPIO_PIN_PULLDOWN);
  509. //nrf_gpio_cfg_input(i, NRF_GPIO_PIN_PULLUP);
  510. }
  511. for (i = 12; i <= 15; ++i)
  512. {
  513. //nrf_gpio_cfg_input(i, NRF_GPIO_PIN_PULLDOWN);
  514. //nrf_gpio_cfg_input(i, NRF_GPIO_PIN_PULLUP);
  515. }
  516. nrf_gpio_cfg_input(7, NRF_GPIO_PIN_PULLDOWN);
  517. #endif
  518. }
  519. #if 0
  520. //uint8_t AesBuffer[16];
  521. void CarEncryptEcb(int mode)
  522. {
  523. uint8_t key[] = {0x53, 0x6D, 0x61, 0x72, 0x74, 0x42, 0x61, 0x6E, 0x64, 0x50, 0x41, 0x52, 0x54, 0x52, 0x4F, 0x4E}; // SmartBandPARTRON
  524. uint8_t in[] = {'C', 'A', 'R', 1,2,3,4,5,6,7,8,9,10,11,12,13 };
  525. uint16_t tempVal;
  526. if( mode == AES_ENC_CAR )
  527. {
  528. in[0] = 'C';
  529. in[1] = 'A';
  530. in[2] = 'R';
  531. }else if( mode == AES_ENC_EMG )
  532. {
  533. in[0] = 'E';
  534. in[1] = 'M';
  535. in[2] = 'G';
  536. }else if( mode == AES_ENC_WES_EMG )
  537. {
  538. in[0] = 'E';
  539. in[1] = 'M';
  540. in[2] = 'G';
  541. }
  542. tempVal = rand();
  543. in[3] = tempVal&0xff;
  544. in[4] = (tempVal>>8)&0xff;
  545. AES128_ECB_encrypt(in, key, SystemManager.AesEncData);
  546. NRF_LOG_RAW_INFO("ECB encrypt: %x\n", tempVal);
  547. }
  548. #endif
  549. void WesDecryptEcb(char* in, char* out)
  550. {
  551. uint8_t key[] = {0x53, 0x6D, 0x61, 0x72, 0x74, 0x42, 0x61, 0x6E, 0x64, 0x50, 0x41, 0x52, 0x54, 0x52, 0x4F, 0x4E}; // IES-200B PARTRON
  552. NRF_LOG_INFO("WesDecryptEcb AES128");
  553. AES128_ECB_decrypt(in, key, out);
  554. }
  555. void WesEncryptEcb(uint8_t* in)
  556. {
  557. int i;
  558. uint8_t* inOrg = in;
  559. uint8_t key[] = {0x53, 0x6D, 0x61, 0x72, 0x74, 0x42, 0x61, 0x6E, 0x64, 0x50, 0x41, 0x52, 0x54, 0x52, 0x4F, 0x4E}; // IES-200B PARTRON
  560. AES128_ECB_encrypt(in, key, SystemManager.AesEncData);
  561. memcpy( inOrg, SystemManager.AesEncData, 16 );
  562. }
  563. #if 0 // Not Used
  564. void CarEncryptEcbACK(char type)
  565. {
  566. uint8_t key[] = {0x53, 0x6D, 0x61, 0x72, 0x74, 0x42, 0x61, 0x6E, 0x64, 0x50, 0x41, 0x52, 0x54, 0x52, 0x4F, 0x4E}; // SmartBandPARTRON
  567. uint8_t in[] = {'C', 'A', 'R', 'A','C','K',1,2,3,4,5,6,7,8,9,0x0A };
  568. switch(type){
  569. // BAND EMG
  570. case 0x72:
  571. in[3] = 'E';
  572. in[4] = 'M';
  573. in[5] = 'G';
  574. break;
  575. // NEW iOS APP
  576. case 0x75:
  577. in[3] = 'P';
  578. in[4] = 'C';
  579. in[5] = 'A';
  580. break;
  581. }
  582. AES128_ECB_encrypt(in, key, SystemManager.AesEncData);
  583. NRF_LOG_RAW_INFO("ECB ACK\n");
  584. }
  585. #endif