cmdqueue.cpp 27 KB

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  1. #include "cmdqueue.h"
  2. #include "cardreader.h"
  3. #include "ultralcd.h"
  4. #include "Prusa_farm.h"
  5. // Reserve BUFSIZE lines of length MAX_CMD_SIZE plus CMDBUFFER_RESERVE_FRONT.
  6. char cmdbuffer[BUFSIZE * (MAX_CMD_SIZE + 1) + CMDBUFFER_RESERVE_FRONT];
  7. // Head of the circular buffer, where to read.
  8. size_t bufindr = 0;
  9. // Tail of the buffer, where to write.
  10. static size_t bufindw = 0;
  11. // Number of lines in cmdbuffer.
  12. int buflen = 0;
  13. // Flag for processing the current command inside the main Arduino loop().
  14. // If a new command was pushed to the front of a command buffer while
  15. // processing another command, this replaces the command on the top.
  16. // Therefore don't remove the command from the queue in the loop() function.
  17. bool cmdbuffer_front_already_processed = false;
  18. // Used for temporarely preventing accidental adding of Serial commands to the queue.
  19. // For now only check_file and the fancheck pause use this.
  20. bool cmdqueue_serial_disabled = false;
  21. int serial_count = 0; //index of character read from serial line
  22. bool comment_mode = false;
  23. char *strchr_pointer; // just a pointer to find chars in the command string like X, Y, Z, E, etc
  24. ShortTimer serialTimeoutTimer;
  25. long gcode_LastN = 0;
  26. uint32_t sdpos_atomic = 0;
  27. // Pop the currently processed command from the queue.
  28. // It is expected, that there is at least one command in the queue.
  29. bool cmdqueue_pop_front()
  30. {
  31. if (buflen > 0) {
  32. #ifdef CMDBUFFER_DEBUG
  33. SERIAL_ECHOPGM("Dequeing ");
  34. SERIAL_ECHO(cmdbuffer+bufindr+CMDHDRSIZE);
  35. SERIAL_ECHOLNPGM("");
  36. SERIAL_ECHOPGM("Old indices: buflen ");
  37. SERIAL_ECHO(buflen);
  38. SERIAL_ECHOPGM(", bufindr ");
  39. SERIAL_ECHO(bufindr);
  40. SERIAL_ECHOPGM(", bufindw ");
  41. SERIAL_ECHO(bufindw);
  42. SERIAL_ECHOPGM(", serial_count ");
  43. SERIAL_ECHO(serial_count);
  44. SERIAL_ECHOPGM(", bufsize ");
  45. SERIAL_ECHO(sizeof(cmdbuffer));
  46. SERIAL_ECHOLNPGM("");
  47. #endif /* CMDBUFFER_DEBUG */
  48. if (-- buflen == 0) {
  49. // Empty buffer.
  50. if (serial_count == 0)
  51. // No serial communication is pending. Reset both pointers to zero.
  52. bufindw = 0;
  53. bufindr = bufindw;
  54. } else {
  55. // There is at least one ready line in the buffer.
  56. // First skip the current command ID and iterate up to the end of the string.
  57. for (bufindr += CMDHDRSIZE; cmdbuffer[bufindr] != 0; ++ bufindr) ;
  58. // Second, skip the end of string null character and iterate until a nonzero command ID is found.
  59. for (++ bufindr; bufindr < sizeof(cmdbuffer) && cmdbuffer[bufindr] == 0; ++ bufindr) ;
  60. // If the end of the buffer was empty,
  61. if (bufindr == sizeof(cmdbuffer)) {
  62. // skip to the start and find the nonzero command.
  63. for (bufindr = 0; cmdbuffer[bufindr] == 0; ++ bufindr) ;
  64. }
  65. #ifdef CMDBUFFER_DEBUG
  66. SERIAL_ECHOPGM("New indices: buflen ");
  67. SERIAL_ECHO(buflen);
  68. SERIAL_ECHOPGM(", bufindr ");
  69. SERIAL_ECHO(bufindr);
  70. SERIAL_ECHOPGM(", bufindw ");
  71. SERIAL_ECHO(bufindw);
  72. SERIAL_ECHOPGM(", serial_count ");
  73. SERIAL_ECHO(serial_count);
  74. SERIAL_ECHOPGM(" new command on the top: ");
  75. SERIAL_ECHO(cmdbuffer+bufindr+CMDHDRSIZE);
  76. SERIAL_ECHOLNPGM("");
  77. #endif /* CMDBUFFER_DEBUG */
  78. }
  79. return true;
  80. }
  81. return false;
  82. }
  83. void cmdqueue_reset()
  84. {
  85. while (buflen)
  86. {
  87. // printf_P(PSTR("dumping: \"%s\" of type %u\n"), cmdbuffer+bufindr+CMDHDRSIZE, CMDBUFFER_CURRENT_TYPE);
  88. ClearToSend();
  89. cmdqueue_pop_front();
  90. }
  91. bufindr = 0;
  92. bufindw = 0;
  93. //commands are removed from command queue after process_command() function is finished
  94. //reseting command queue and enqueing new commands during some (usually long running) command processing would cause that new commands are immediately removed from queue (or damaged)
  95. //this will ensure that all new commands which are enqueued after cmdqueue reset, will be always executed
  96. cmdbuffer_front_already_processed = true;
  97. }
  98. // How long a string could be pushed to the front of the command queue?
  99. // If yes, adjust bufindr to the new position, where the new command could be enqued.
  100. // len_asked does not contain the zero terminator size.
  101. static bool cmdqueue_could_enqueue_front(size_t len_asked)
  102. {
  103. // MAX_CMD_SIZE has to accommodate the zero terminator.
  104. if (len_asked >= MAX_CMD_SIZE)
  105. return false;
  106. // Remove the currently processed command from the queue.
  107. if (! cmdbuffer_front_already_processed) {
  108. cmdqueue_pop_front();
  109. cmdbuffer_front_already_processed = true;
  110. }
  111. if (bufindr == bufindw && buflen > 0)
  112. // Full buffer.
  113. return false;
  114. // Adjust the end of the write buffer based on whether a partial line is in the receive buffer.
  115. int endw = (serial_count > 0) ? (bufindw + MAX_CMD_SIZE + 1) : bufindw;
  116. if (bufindw < bufindr) {
  117. int bufindr_new = bufindr - len_asked - (1 + CMDHDRSIZE);
  118. // Simple case. There is a contiguous space between the write buffer and the read buffer.
  119. if (endw <= bufindr_new) {
  120. bufindr = bufindr_new;
  121. return true;
  122. }
  123. } else {
  124. // Otherwise the free space is split between the start and end.
  125. if (len_asked + (1 + CMDHDRSIZE) <= bufindr) {
  126. // Could fit at the start.
  127. bufindr -= len_asked + (1 + CMDHDRSIZE);
  128. return true;
  129. }
  130. int bufindr_new = sizeof(cmdbuffer) - len_asked - (1 + CMDHDRSIZE);
  131. if (endw <= bufindr_new) {
  132. memset(cmdbuffer, 0, bufindr);
  133. bufindr = bufindr_new;
  134. return true;
  135. }
  136. }
  137. return false;
  138. }
  139. // Could one enqueue a command of length len_asked into the buffer,
  140. // while leaving CMDBUFFER_RESERVE_FRONT at the start?
  141. // If yes, adjust bufindw to the new position, where the new command could be enqued.
  142. // len_asked does not contain the zero terminator size.
  143. // This function may update bufindw, therefore for the power panic to work, this function must be called
  144. // with the interrupts disabled!
  145. static bool cmdqueue_could_enqueue_back(size_t len_asked, bool atomic_update = false)
  146. {
  147. // MAX_CMD_SIZE has to accommodate the zero terminator.
  148. if (len_asked >= MAX_CMD_SIZE)
  149. return false;
  150. if (bufindr == bufindw && buflen > 0)
  151. // Full buffer.
  152. return false;
  153. if (serial_count > 0) {
  154. // If there is some data stored starting at bufindw, len_asked is certainly smaller than
  155. // the allocated data buffer. Try to reserve a new buffer and to move the already received
  156. // serial data.
  157. // How much memory to reserve for the commands pushed to the front?
  158. // End of the queue, when pushing to the end.
  159. size_t endw = bufindw + len_asked + (1 + CMDHDRSIZE);
  160. if (bufindw < bufindr)
  161. // Simple case. There is a contiguous space between the write buffer and the read buffer.
  162. return endw + CMDBUFFER_RESERVE_FRONT <= bufindr;
  163. // Otherwise the free space is split between the start and end.
  164. if (// Could one fit to the end, including the reserve?
  165. endw + CMDBUFFER_RESERVE_FRONT <= sizeof(cmdbuffer) ||
  166. // Could one fit to the end, and the reserve to the start?
  167. (endw <= sizeof(cmdbuffer) && CMDBUFFER_RESERVE_FRONT <= bufindr))
  168. return true;
  169. // Could one fit both to the start?
  170. if (len_asked + (1 + CMDHDRSIZE) + CMDBUFFER_RESERVE_FRONT <= bufindr) {
  171. // Mark the rest of the buffer as used.
  172. memset(cmdbuffer+bufindw, 0, sizeof(cmdbuffer)-bufindw);
  173. // and point to the start.
  174. // Be careful! The bufindw needs to be changed atomically for the power panic & filament panic to work.
  175. if (atomic_update)
  176. cli();
  177. bufindw = 0;
  178. if (atomic_update)
  179. sei();
  180. return true;
  181. }
  182. } else {
  183. // How much memory to reserve for the commands pushed to the front?
  184. // End of the queue, when pushing to the end.
  185. size_t endw = bufindw + len_asked + (1 + CMDHDRSIZE);
  186. if (bufindw < bufindr)
  187. // Simple case. There is a contiguous space between the write buffer and the read buffer.
  188. return endw + CMDBUFFER_RESERVE_FRONT <= bufindr;
  189. // Otherwise the free space is split between the start and end.
  190. if (// Could one fit to the end, including the reserve?
  191. endw + CMDBUFFER_RESERVE_FRONT <= sizeof(cmdbuffer) ||
  192. // Could one fit to the end, and the reserve to the start?
  193. (endw <= sizeof(cmdbuffer) && CMDBUFFER_RESERVE_FRONT <= bufindr))
  194. return true;
  195. // Could one fit both to the start?
  196. if (len_asked + (1 + CMDHDRSIZE) + CMDBUFFER_RESERVE_FRONT <= bufindr) {
  197. // Mark the rest of the buffer as used.
  198. memset(cmdbuffer+bufindw, 0, sizeof(cmdbuffer)-bufindw);
  199. // and point to the start.
  200. // Be careful! The bufindw needs to be changed atomically for the power panic & filament panic to work.
  201. if (atomic_update)
  202. cli();
  203. bufindw = 0;
  204. if (atomic_update)
  205. sei();
  206. return true;
  207. }
  208. }
  209. return false;
  210. }
  211. #ifdef CMDBUFFER_DEBUG
  212. void cmdqueue_dump_to_serial_single_line(int nr, const char *p)
  213. {
  214. SERIAL_ECHOPGM("Entry nr: ");
  215. SERIAL_ECHO(nr);
  216. SERIAL_ECHOPGM(", type: ");
  217. int type = *p;
  218. SERIAL_ECHO(type);
  219. SERIAL_ECHOPGM(", size: ");
  220. unsigned int size = *(unsigned int*)(p + 1);
  221. SERIAL_ECHO(size);
  222. SERIAL_ECHOPGM(", cmd: ");
  223. SERIAL_ECHO(p + CMDHDRSIZE);
  224. SERIAL_ECHOLNPGM("");
  225. }
  226. void cmdqueue_dump_to_serial()
  227. {
  228. if (buflen == 0) {
  229. SERIAL_ECHOLNPGM("The command buffer is empty.");
  230. } else {
  231. SERIAL_ECHOPGM("Content of the buffer: entries ");
  232. SERIAL_ECHO(buflen);
  233. SERIAL_ECHOPGM(", indr ");
  234. SERIAL_ECHO(bufindr);
  235. SERIAL_ECHOPGM(", indw ");
  236. SERIAL_ECHO(bufindw);
  237. SERIAL_ECHOLNPGM("");
  238. int nr = 0;
  239. if (bufindr < bufindw) {
  240. for (const char *p = cmdbuffer + bufindr; p < cmdbuffer + bufindw; ++ nr) {
  241. cmdqueue_dump_to_serial_single_line(nr, p);
  242. // Skip the command.
  243. for (p += CMDHDRSIZE; *p != 0; ++ p);
  244. // Skip the gaps.
  245. for (++p; p < cmdbuffer + bufindw && *p == 0; ++ p);
  246. }
  247. } else {
  248. for (const char *p = cmdbuffer + bufindr; p < cmdbuffer + sizeof(cmdbuffer); ++ nr) {
  249. cmdqueue_dump_to_serial_single_line(nr, p);
  250. // Skip the command.
  251. for (p += CMDHDRSIZE; *p != 0; ++ p);
  252. // Skip the gaps.
  253. for (++p; p < cmdbuffer + sizeof(cmdbuffer) && *p == 0; ++ p);
  254. }
  255. for (const char *p = cmdbuffer; p < cmdbuffer + bufindw; ++ nr) {
  256. cmdqueue_dump_to_serial_single_line(nr, p);
  257. // Skip the command.
  258. for (p += CMDHDRSIZE; *p != 0; ++ p);
  259. // Skip the gaps.
  260. for (++p; p < cmdbuffer + bufindw && *p == 0; ++ p);
  261. }
  262. }
  263. SERIAL_ECHOLNPGM("End of the buffer.");
  264. }
  265. }
  266. #endif /* CMDBUFFER_DEBUG */
  267. //adds an command to the main command buffer
  268. //thats really done in a non-safe way.
  269. //needs overworking someday
  270. // Currently the maximum length of a command piped through this function is around 20 characters
  271. void enquecommand(const char *cmd, bool from_progmem)
  272. {
  273. size_t len = from_progmem ? strlen_P(cmd) : strlen(cmd);
  274. // Does cmd fit the queue while leaving sufficient space at the front for the chained commands?
  275. // If it fits, it may move bufindw, so it points to a contiguous buffer, which fits cmd.
  276. if (cmdqueue_could_enqueue_back(len)) {
  277. // This is dangerous if a mixing of serial and this happens
  278. // This may easily be tested: If serial_count > 0, we have a problem.
  279. cmdbuffer[bufindw] = CMDBUFFER_CURRENT_TYPE_UI;
  280. if (from_progmem)
  281. strcpy_P(cmdbuffer + bufindw + CMDHDRSIZE, cmd);
  282. else
  283. strcpy(cmdbuffer + bufindw + CMDHDRSIZE, cmd);
  284. SERIAL_ECHO_START;
  285. SERIAL_ECHORPGM(MSG_Enqueing);
  286. SERIAL_ECHO(cmdbuffer + bufindw + CMDHDRSIZE);
  287. SERIAL_ECHOLNPGM("\"");
  288. bufindw += len + (CMDHDRSIZE + 1);
  289. if (bufindw == sizeof(cmdbuffer))
  290. bufindw = 0;
  291. ++ buflen;
  292. #ifdef CMDBUFFER_DEBUG
  293. cmdqueue_dump_to_serial();
  294. #endif /* CMDBUFFER_DEBUG */
  295. } else {
  296. SERIAL_ERROR_START;
  297. SERIAL_ECHORPGM(MSG_Enqueing);
  298. if (from_progmem)
  299. SERIAL_PROTOCOLRPGM(cmd);
  300. else
  301. SERIAL_ECHO(cmd);
  302. SERIAL_ECHOLNPGM("\" failed: Buffer full!");
  303. #ifdef CMDBUFFER_DEBUG
  304. cmdqueue_dump_to_serial();
  305. #endif /* CMDBUFFER_DEBUG */
  306. }
  307. }
  308. bool cmd_buffer_empty()
  309. {
  310. return (buflen == 0);
  311. }
  312. void enquecommand_front(const char *cmd, bool from_progmem)
  313. {
  314. size_t len = from_progmem ? strlen_P(cmd) : strlen(cmd);
  315. // Does cmd fit the queue? This call shall move bufindr, so the command may be copied.
  316. if (cmdqueue_could_enqueue_front(len)) {
  317. cmdbuffer[bufindr] = CMDBUFFER_CURRENT_TYPE_UI;
  318. if (from_progmem)
  319. strcpy_P(cmdbuffer + bufindr + CMDHDRSIZE, cmd);
  320. else
  321. strcpy(cmdbuffer + bufindr + CMDHDRSIZE, cmd);
  322. ++ buflen;
  323. SERIAL_ECHO_START;
  324. SERIAL_ECHOPGM("Enqueing to the front: \"");
  325. SERIAL_ECHO(cmdbuffer + bufindr + CMDHDRSIZE);
  326. SERIAL_ECHOLNPGM("\"");
  327. #ifdef CMDBUFFER_DEBUG
  328. cmdqueue_dump_to_serial();
  329. #endif /* CMDBUFFER_DEBUG */
  330. } else {
  331. SERIAL_ERROR_START;
  332. SERIAL_ECHOPGM("Enqueing to the front: \"");
  333. if (from_progmem)
  334. SERIAL_PROTOCOLRPGM(cmd);
  335. else
  336. SERIAL_ECHO(cmd);
  337. SERIAL_ECHOLNPGM("\" failed: Buffer full!");
  338. #ifdef CMDBUFFER_DEBUG
  339. cmdqueue_dump_to_serial();
  340. #endif /* CMDBUFFER_DEBUG */
  341. }
  342. }
  343. // Mark the command at the top of the command queue as new.
  344. // Therefore it will not be removed from the queue.
  345. void repeatcommand_front()
  346. {
  347. cmdbuffer_front_already_processed = true;
  348. }
  349. void get_command()
  350. {
  351. // Test and reserve space for the new command string.
  352. if (! cmdqueue_could_enqueue_back(MAX_CMD_SIZE - 1, true))
  353. return;
  354. if (MYSERIAL.available() == RX_BUFFER_SIZE - 1) { //compare number of chars buffered in rx buffer with rx buffer size
  355. MYSERIAL.flush();
  356. SERIAL_ECHOLNPGM("Full RX Buffer"); //if buffer was full, there is danger that reading of last gcode will not be completed
  357. }
  358. // start of serial line processing loop
  359. while (((MYSERIAL.available() > 0 && !saved_printing) || (MYSERIAL.available() > 0 && isPrintPaused)) && !cmdqueue_serial_disabled) { //is print is saved (crash detection or filament detection), dont process data from serial line
  360. char serial_char = MYSERIAL.read();
  361. serialTimeoutTimer.start();
  362. if (serial_char < 0)
  363. // Ignore extended ASCII characters. These characters have no meaning in the G-code apart from the file names
  364. // and Marlin does not support such file names anyway.
  365. // Serial characters with a highest bit set to 1 are generated when the USB cable is unplugged, leading
  366. // to a hang-up of the print process from an SD card.
  367. continue;
  368. if(serial_char == '\n' ||
  369. serial_char == '\r' ||
  370. serial_count >= (MAX_CMD_SIZE - 1) )
  371. {
  372. if(!serial_count) { //if empty line
  373. comment_mode = false; //for new command
  374. return;
  375. }
  376. cmdbuffer[bufindw+serial_count+CMDHDRSIZE] = 0; //terminate string
  377. if(!comment_mode){
  378. long gcode_N = -1;
  379. // Line numbers must be first in buffer
  380. if ((strstr_P(cmdbuffer+bufindw+CMDHDRSIZE, PSTR("PRUSA")) == NULL) &&
  381. (cmdbuffer[bufindw+CMDHDRSIZE] == 'N')) {
  382. // Line number met. When sending a G-code over a serial line, each line may be stamped with its index,
  383. // and Marlin tests, whether the successive lines are stamped with an increasing line number ID
  384. gcode_N = (strtol(cmdbuffer+bufindw+CMDHDRSIZE+1, NULL, 10));
  385. if(gcode_N != gcode_LastN+1 && (strstr_P(cmdbuffer+bufindw+CMDHDRSIZE, PSTR("M110")) == NULL) ) {
  386. // M110 - set current line number.
  387. // Line numbers not sent in succession.
  388. SERIAL_ERROR_START;
  389. SERIAL_ERRORRPGM(_n("Line Number is not Last Line Number+1, Last Line: "));////MSG_ERR_LINE_NO
  390. SERIAL_ERRORLN(gcode_LastN);
  391. //Serial.println(gcode_N);
  392. FlushSerialRequestResend();
  393. serial_count = 0;
  394. return;
  395. }
  396. if((strchr_pointer = strchr(cmdbuffer+bufindw+CMDHDRSIZE, '*')) != NULL)
  397. {
  398. byte checksum = 0;
  399. char *p = cmdbuffer+bufindw+CMDHDRSIZE;
  400. while (p != strchr_pointer)
  401. checksum = checksum^(*p++);
  402. if (code_value_short() != (int16_t)checksum) {
  403. SERIAL_ERROR_START;
  404. SERIAL_ERRORRPGM(_n("checksum mismatch, Last Line: "));////MSG_ERR_CHECKSUM_MISMATCH
  405. SERIAL_ERRORLN(gcode_LastN);
  406. FlushSerialRequestResend();
  407. serial_count = 0;
  408. return;
  409. }
  410. // If no errors, remove the checksum and continue parsing.
  411. *strchr_pointer = 0;
  412. }
  413. else
  414. {
  415. SERIAL_ERROR_START;
  416. SERIAL_ERRORRPGM(_n("No Checksum with line number, Last Line: "));////MSG_ERR_NO_CHECKSUM
  417. SERIAL_ERRORLN(gcode_LastN);
  418. FlushSerialRequestResend();
  419. serial_count = 0;
  420. return;
  421. }
  422. // Don't parse N again with code_seen('N')
  423. cmdbuffer[bufindw + CMDHDRSIZE] = '$';
  424. }
  425. // if we don't receive 'N' but still see '*'
  426. if ((cmdbuffer[bufindw + CMDHDRSIZE] != 'N') && (cmdbuffer[bufindw + CMDHDRSIZE] != '$') && (strchr(cmdbuffer+bufindw+CMDHDRSIZE, '*') != NULL))
  427. {
  428. SERIAL_ERROR_START;
  429. SERIAL_ERRORRPGM(_n("No Line Number with checksum, Last Line: "));////MSG_ERR_NO_LINENUMBER_WITH_CHECKSUM
  430. SERIAL_ERRORLN(gcode_LastN);
  431. FlushSerialRequestResend();
  432. serial_count = 0;
  433. return;
  434. }
  435. // Handle KILL early, even when Stopped
  436. if(strcmp(cmdbuffer+bufindw+CMDHDRSIZE, "M112") == 0)
  437. kill(MSG_M112_KILL, 2);
  438. // Handle the USB timer
  439. if ((strchr_pointer = strchr(cmdbuffer+bufindw+CMDHDRSIZE, 'G')) != NULL) {
  440. if (!IS_SD_PRINTING) {
  441. usb_timer.start();
  442. }
  443. }
  444. if (Stopped == true) {
  445. // Stopped can be set either during error states (thermal error: cannot continue), or
  446. // when a printer-initiated action is processed. In such case the printer will send to
  447. // the host an action, but cannot know if the action has been processed while new
  448. // commands are being sent. In this situation we just drop the command while issuing
  449. // periodic "busy" messages in the main loop. Since we're not incrementing the received
  450. // line number, a request for resend will happen (if necessary), ensuring we don't skip
  451. // commands whenever Stopped is cleared and processing resumes.
  452. serial_count = 0;
  453. return;
  454. }
  455. // Command is complete: store the current line into buffer, move to the next line.
  456. // Store type of entry
  457. cmdbuffer[bufindw] = gcode_N >= 0 ? CMDBUFFER_CURRENT_TYPE_USB_WITH_LINENR : CMDBUFFER_CURRENT_TYPE_USB;
  458. #ifdef CMDBUFFER_DEBUG
  459. SERIAL_ECHO_START;
  460. SERIAL_ECHOPGM("Storing a command line to buffer: ");
  461. SERIAL_ECHO(cmdbuffer+bufindw+CMDHDRSIZE);
  462. SERIAL_ECHOLNPGM("");
  463. #endif /* CMDBUFFER_DEBUG */
  464. // Store command itself
  465. bufindw += strlen(cmdbuffer+bufindw+CMDHDRSIZE) + (1 + CMDHDRSIZE);
  466. if (bufindw == sizeof(cmdbuffer))
  467. bufindw = 0;
  468. ++ buflen;
  469. // Update the processed gcode line
  470. if (gcode_N >= 0)
  471. gcode_LastN = gcode_N;
  472. #ifdef CMDBUFFER_DEBUG
  473. SERIAL_ECHOPGM("Number of commands in the buffer: ");
  474. SERIAL_ECHO(buflen);
  475. SERIAL_ECHOLNPGM("");
  476. #endif /* CMDBUFFER_DEBUG */
  477. } // end of 'not comment mode'
  478. serial_count = 0; //clear buffer
  479. // Don't call cmdqueue_could_enqueue_back if there are no characters waiting
  480. // in the queue, as this function will reserve the memory.
  481. if (MYSERIAL.available() == 0 || ! cmdqueue_could_enqueue_back(MAX_CMD_SIZE-1, true))
  482. return;
  483. } // end of "end of line" processing
  484. else {
  485. // Not an "end of line" symbol. Store the new character into a buffer.
  486. if(serial_char == ';') comment_mode = true;
  487. if(!comment_mode) cmdbuffer[bufindw+CMDHDRSIZE+serial_count++] = serial_char;
  488. }
  489. } // end of serial line processing loop
  490. if (serial_count > 0 && serialTimeoutTimer.expired(farm_mode ? 800 : 2000)) {
  491. comment_mode = false;
  492. serial_count = 0;
  493. SERIAL_ECHOLNPGM("RX timeout");
  494. return;
  495. }
  496. #ifdef SDSUPPORT
  497. if(!card.sdprinting || !card.isFileOpen() || serial_count!=0){
  498. // If there is a half filled buffer from serial line, wait until return before
  499. // continuing with the serial line.
  500. return;
  501. }
  502. //'#' stops reading from SD to the buffer prematurely, so procedural macro calls are possible
  503. // if it occurs, stop_buffering is triggered and the buffer is ran dry.
  504. // this character _can_ occur in serial com, due to checksums. however, no checksums are used in SD printing
  505. static bool stop_buffering=false;
  506. if(buflen==0) stop_buffering=false;
  507. union {
  508. struct {
  509. char lo;
  510. char hi;
  511. } lohi;
  512. uint16_t value;
  513. } sd_count;
  514. sd_count.value = 0;
  515. // Reads whole lines from the SD card. Never leaves a half-filled line in the cmdbuffer.
  516. while( !card.eof() && !stop_buffering) {
  517. int16_t n=card.getFilteredGcodeChar();
  518. char serial_char = (char)n;
  519. if( serial_char == '\n'
  520. || serial_char == '\r'
  521. || ((serial_char == '#' || serial_char == ':') )
  522. || serial_count >= (MAX_CMD_SIZE - 1)
  523. || n==-1
  524. ){
  525. if(serial_char=='#')
  526. stop_buffering=true;
  527. if(!serial_count)
  528. {
  529. // This is either an empty line, or a line with just a comment.
  530. // Continue to the following line, and continue accumulating the number of bytes
  531. // read from the sdcard into sd_count,
  532. // so that the lenght of the already read empty lines and comments will be added
  533. // to the following non-empty line.
  534. return; // prevent cycling indefinitely - let manage_heaters do their job
  535. }
  536. // The new command buffer could be updated non-atomically, because it is not yet considered
  537. // to be inside the active queue.
  538. sd_count.value = card.get_sdpos() - sdpos_atomic;
  539. cmdbuffer[bufindw] = CMDBUFFER_CURRENT_TYPE_SDCARD;
  540. cmdbuffer[bufindw+1] = sd_count.lohi.lo;
  541. cmdbuffer[bufindw+2] = sd_count.lohi.hi;
  542. cmdbuffer[bufindw+serial_count+CMDHDRSIZE] = 0; //terminate string
  543. // Calculate the length before disabling the interrupts.
  544. uint8_t len = strlen(cmdbuffer+bufindw+CMDHDRSIZE) + (1 + CMDHDRSIZE);
  545. // SERIAL_ECHOPGM("SD cmd(");
  546. // MYSERIAL.print(sd_count.value, DEC);
  547. // SERIAL_ECHOPGM(") ");
  548. // SERIAL_ECHOLN(cmdbuffer+bufindw+CMDHDRSIZE);
  549. // SERIAL_ECHOPGM("cmdbuffer:");
  550. // MYSERIAL.print(cmdbuffer);
  551. // SERIAL_ECHOPGM("buflen:");
  552. // MYSERIAL.print(buflen+1);
  553. sd_count.value = 0;
  554. cli();
  555. // This block locks the interrupts globally for 3.56 us,
  556. // which corresponds to a maximum repeat frequency of 280.70 kHz.
  557. // This blocking is safe in the context of a 10kHz stepper driver interrupt
  558. // or a 115200 Bd serial line receive interrupt, which will not trigger faster than 12kHz.
  559. ++ buflen;
  560. bufindw += len;
  561. sdpos_atomic = card.get_sdpos();
  562. if (bufindw == sizeof(cmdbuffer))
  563. bufindw = 0;
  564. sei();
  565. comment_mode = false; //for new command
  566. serial_count = 0; //clear buffer
  567. if(card.eof()) break;
  568. // The following line will reserve buffer space if available.
  569. if (! cmdqueue_could_enqueue_back(MAX_CMD_SIZE-1, true))
  570. return;
  571. }
  572. else
  573. {
  574. // there are no comments coming from the filtered file
  575. cmdbuffer[bufindw+CMDHDRSIZE+serial_count++] = serial_char;
  576. }
  577. }
  578. if(card.eof())
  579. {
  580. // file was fully buffered, but commands might still need to be planned!
  581. // do *not* clear sdprinting until all SD commands are consumed to ensure
  582. // SD state can be resumed from a saved printing state. sdprinting is only
  583. // cleared by printingHasFinished after peforming all remaining moves.
  584. if(!cmdqueue_calc_sd_length())
  585. {
  586. // queue is complete, but before we process EOF commands prevent
  587. // re-entry by disabling SD processing from any st_synchronize call
  588. card.closefile();
  589. SERIAL_PROTOCOLLNRPGM(_n("Done printing file"));////MSG_FILE_PRINTED
  590. stoptime=_millis();
  591. char time[30];
  592. unsigned long t=(stoptime-starttime-pause_time)/1000;
  593. pause_time = 0;
  594. int hours, minutes;
  595. minutes=(t/60)%60;
  596. hours=t/60/60;
  597. save_statistics(total_filament_used, t);
  598. sprintf_P(time, PSTR("%i hours %i minutes"),hours, minutes);
  599. SERIAL_ECHO_START;
  600. SERIAL_ECHOLN(time);
  601. lcd_setstatus(time);
  602. card.printingHasFinished();
  603. card.checkautostart(true);
  604. if (farm_mode)
  605. {
  606. prusa_statistics(6);
  607. lcd_commands_type = LcdCommands::FarmModeConfirm;
  608. }
  609. }
  610. }
  611. #endif //SDSUPPORT
  612. }
  613. uint16_t cmdqueue_calc_sd_length()
  614. {
  615. if (buflen == 0)
  616. return 0;
  617. union {
  618. struct {
  619. char lo;
  620. char hi;
  621. } lohi;
  622. uint16_t value;
  623. } sdlen_single;
  624. uint16_t sdlen = 0;
  625. for (size_t _buflen = buflen, _bufindr = bufindr;;) {
  626. if (cmdbuffer[_bufindr] == CMDBUFFER_CURRENT_TYPE_SDCARD) {
  627. sdlen_single.lohi.lo = cmdbuffer[_bufindr + 1];
  628. sdlen_single.lohi.hi = cmdbuffer[_bufindr + 2];
  629. sdlen += sdlen_single.value;
  630. }
  631. if (-- _buflen == 0)
  632. break;
  633. // First skip the current command ID and iterate up to the end of the string.
  634. for (_bufindr += CMDHDRSIZE; cmdbuffer[_bufindr] != 0; ++ _bufindr) ;
  635. // Second, skip the end of string null character and iterate until a nonzero command ID is found.
  636. for (++ _bufindr; _bufindr < sizeof(cmdbuffer) && cmdbuffer[_bufindr] == 0; ++ _bufindr) ;
  637. // If the end of the buffer was empty,
  638. if (_bufindr == sizeof(cmdbuffer)) {
  639. // skip to the start and find the nonzero command.
  640. for (_bufindr = 0; cmdbuffer[_bufindr] == 0; ++ _bufindr) ;
  641. }
  642. }
  643. return sdlen;
  644. }