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teensy-cores/teensy4/usb.c

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  1. #include "usb_dev.h"

  2. #define USB_DESC_LIST_DEFINE

  3. #include "usb_desc.h"

  4. #include "usb_serial.h"

  5. #include "core_pins.h" // for delay()

  6. #include <string.h>

  7. #include "debug/printf.h"

  8. 

  9. // device mode, page 3155

  10. 

  11. typedef struct endpoint_struct endpoint_t;

  12. 

  13. struct endpoint_struct {

  14. 	uint32_t config;

  15. 	uint32_t current;

  16. 	uint32_t next;

  17. 	uint32_t status;

  18. 	uint32_t pointer0;

  19. 	uint32_t pointer1;

  20. 	uint32_t pointer2;

  21. 	uint32_t pointer3;

  22. 	uint32_t pointer4;

  23. 	uint32_t reserved;

  24. 	uint32_t setup0;

  25. 	uint32_t setup1;

  26. 	transfer_t *first_transfer;

  27. 	transfer_t *last_transfer;

  28. 	void (*callback_function)(transfer_t *completed_transfer);

  29. 	uint32_t unused1;

  30. };

  31. 

  32. /*struct transfer_struct {

  33. 	uint32_t next;

  34. 	uint32_t status;

  35. 	uint32_t pointer0;

  36. 	uint32_t pointer1;

  37. 	uint32_t pointer2;

  38. 	uint32_t pointer3;

  39. 	uint32_t pointer4;

  40. 	uint32_t callback_param;

  41. };*/

  42. 

  43. endpoint_t endpoint_queue_head[(NUM_ENDPOINTS+1)*2] __attribute__ ((used, aligned(4096)));

  44. 

  45. transfer_t endpoint0_transfer_data __attribute__ ((used, aligned(32)));

  46. transfer_t endpoint0_transfer_ack  __attribute__ ((used, aligned(32)));

  47. 

  48. 

  49. typedef union {

  50.  struct {

  51.   union {

  52.    struct {

  53.         uint8_t bmRequestType;

  54.         uint8_t bRequest;

  55.    };

  56.         uint16_t wRequestAndType;

  57.   };

  58.         uint16_t wValue;

  59.         uint16_t wIndex;

  60.         uint16_t wLength;

  61.  };

  62.  struct {

  63.         uint32_t word1;

  64.         uint32_t word2;

  65.  };

  66. 	uint64_t bothwords;

  67. } setup_t;

  68. 

  69. static setup_t endpoint0_setupdata;

  70. static uint32_t endpoint0_notify_mask=0;

  71. static uint32_t endpointN_notify_mask=0;

  72. //static int reset_count=0;

  73. volatile uint8_t usb_configuration = 0;

  74. static uint8_t endpoint0_buffer[8];

  75. static uint8_t usb_reboot_timer = 0;

  76. 

  77. 

  78. static void isr(void);

  79. static void endpoint0_setup(uint64_t setupdata);

  80. static void endpoint0_transmit(const void *data, uint32_t len, int notify);

  81. static void endpoint0_receive(void *data, uint32_t len, int notify);

  82. static void endpoint0_complete(void);

  83. 

  84. 

  85. static void run_callbacks(endpoint_t *ep);

  86. 

  87. static void run_callbacks(endpoint_t *ep)

  88. {

  89. 	transfer_t *t, *next;

  90. 

  91. 	printf("run_callbacks\n");

  92. 	t = ep->first_transfer;

  93. 	while (t && (uint32_t)t != 1) {

  94. 		if (!(t->status & (1<<7))) {

  95. 			// transfer not active anymore

  96. 			next = (transfer_t *)t->next;

  97. 			ep->callback_function(t);

  98. 		} else {

  99. 			// transfer still active

  100. 			ep->first_transfer = t;

  101. 			return;

  102. 		}

  103. 		t = next;

  104. 	}

  105. 	// all transfers completed

  106. 	ep->first_transfer = NULL;

  107. 	ep->last_transfer = NULL;

  108. }

  109. 

  110. 

  111. __attribute__((section(".progmem")))

  112. void usb_init(void)

  113. {

  114. 	// TODO: only enable when VBUS detected

  115. 	// TODO: return to low power mode when VBUS removed

  116. 	// TODO: protect PMU access with MPU

  117. 	PMU_REG_3P0 = PMU_REG_3P0_OUTPUT_TRG(0x0F) | PMU_REG_3P0_BO_OFFSET(6)

  118. 		| PMU_REG_3P0_ENABLE_LINREG;

  119. 

  120. 	usb_init_serialnumber();

  121. 

  122. 	// assume PLL3 is already running - already done by usb_pll_start() in main.c

  123. 

  124. 	CCM_CCGR6 |= CCM_CCGR6_USBOH3(CCM_CCGR_ON); // turn on clocks to USB peripheral

  125. 	

  126. 	// Before programming this register, the PHY clocks must be enabled in registers

  127. 	// USBPHYx_CTRLn and CCM_ANALOG_USBPHYx_PLL_480_CTRLn.

  128. 

  129. 	//printf("USBPHY1_PWD=%08lX\n", USBPHY1_PWD);

  130. 	//printf("USBPHY1_TX=%08lX\n", USBPHY1_TX);

  131. 	//printf("USBPHY1_RX=%08lX\n", USBPHY1_RX);

  132. 	//printf("USBPHY1_CTRL=%08lX\n", USBPHY1_CTRL);

  133. 	//printf("USB1_USBMODE=%08lX\n", USB1_USBMODE);

  134. 

  135. 	// turn on PLL3, wait for 480 MHz lock?

  136. 	// turn on CCM clock gates?  CCGR6[CG0]

  137. #if 1

  138. 	if ((USBPHY1_PWD & (USBPHY_PWD_RXPWDRX | USBPHY_PWD_RXPWDDIFF | USBPHY_PWD_RXPWD1PT1

  139. 	  | USBPHY_PWD_RXPWDENV | USBPHY_PWD_TXPWDV2I | USBPHY_PWD_TXPWDIBIAS

  140. 	  | USBPHY_PWD_TXPWDFS)) || (USB1_USBMODE & USB_USBMODE_CM_MASK)) {

  141. 		// USB controller is turned on from previous use

  142. 		// reset needed to turn it off & start from clean slate

  143. 		USBPHY1_CTRL_SET = USBPHY_CTRL_SFTRST; // USBPHY1_CTRL page 3292

  144. 		USB1_USBCMD |= USB_USBCMD_RST; // reset controller

  145. 		int count=0;

  146. 		while (USB1_USBCMD & USB_USBCMD_RST) count++;

  147. 		NVIC_CLEAR_PENDING(IRQ_USB1);

  148. 		USBPHY1_CTRL_CLR = USBPHY_CTRL_SFTRST; // reset PHY

  149. 		//USB1_USBSTS = USB1_USBSTS; // TODO: is this needed?

  150. 		printf("USB reset took %d loops\n", count);

  151. 		//delay(10);

  152. 		//printf("\n");

  153. 		//printf("USBPHY1_PWD=%08lX\n", USBPHY1_PWD);

  154. 		//printf("USBPHY1_TX=%08lX\n", USBPHY1_TX);

  155. 		//printf("USBPHY1_RX=%08lX\n", USBPHY1_RX);

  156. 		//printf("USBPHY1_CTRL=%08lX\n", USBPHY1_CTRL);

  157. 		//printf("USB1_USBMODE=%08lX\n", USB1_USBMODE);

  158. 		delay(25);

  159. 	}

  160. #endif

  161. 	// Device Controller Initialization, page 3161

  162. 	// USBCMD	pg 3216

  163. 	// USBSTS	pg 3220

  164. 	// USBINTR	pg 3224

  165. 	// DEVICEADDR	pg 3227

  166. 	// ENDPTLISTADDR   3229

  167. 	// USBMODE	pg 3244

  168. 	// ENDPTSETUPSTAT  3245

  169. 	// ENDPTPRIME	pg 3246

  170. 	// ENDPTFLUSH	pg 3247

  171. 	// ENDPTSTAT	pg 3247

  172. 	// ENDPTCOMPLETE   3248

  173. 	// ENDPTCTRL0	pg 3249

  174. 

  175. 	USBPHY1_CTRL_CLR = USBPHY_CTRL_CLKGATE;

  176. 	USBPHY1_PWD = 0;

  177. 	//printf("USBPHY1_PWD=%08lX\n", USBPHY1_PWD);

  178. 	//printf("USBPHY1_CTRL=%08lX\n", USBPHY1_CTRL);

  179. 

  180. 	USB1_USBMODE = USB_USBMODE_CM(2) | USB_USBMODE_SLOM;

  181. 	memset(endpoint_queue_head, 0, sizeof(endpoint_queue_head));

  182. 	endpoint_queue_head[0].config = (64 << 16) | (1 << 15);

  183. 	endpoint_queue_head[1].config = (64 << 16);

  184. 	USB1_ENDPOINTLISTADDR = (uint32_t)&endpoint_queue_head;

  185. 	//  Recommended: enable all device interrupts including: USBINT, USBERRINT,

  186. 	// Port Change Detect, USB Reset Received, DCSuspend.

  187. 	USB1_USBINTR = USB_USBINTR_UE | USB_USBINTR_UEE | /* USB_USBINTR_PCE | */

  188. 		USB_USBINTR_URE | USB_USBINTR_SLE;

  189. 	//_VectorsRam[IRQ_USB1+16] = &isr;

  190. 	attachInterruptVector(IRQ_USB1, &isr);

  191. 	NVIC_ENABLE_IRQ(IRQ_USB1);

  192. 	//printf("USB1_ENDPTCTRL0=%08lX\n", USB1_ENDPTCTRL0);

  193. 	//printf("USB1_ENDPTCTRL1=%08lX\n", USB1_ENDPTCTRL1);

  194. 	//printf("USB1_ENDPTCTRL2=%08lX\n", USB1_ENDPTCTRL2);

  195. 	//printf("USB1_ENDPTCTRL3=%08lX\n", USB1_ENDPTCTRL3);

  196. 	USB1_USBCMD |= USB_USBCMD_RS;

  197. }

  198. 

  199. 

  200. static void isr(void)

  201. {

  202. 	//printf("*");

  203. 

  204. 	//  Port control in device mode is only used for

  205. 	//  status port reset, suspend, and current connect status.

  206. 	uint32_t status = USB1_USBSTS;

  207. 	USB1_USBSTS = status;

  208. 

  209. 	// USB_USBSTS_SLI - set to 1 when enters a suspend state from an active state

  210. 	// USB_USBSTS_SRI - set at start of frame

  211. 	// USB_USBSTS_SRI - set when USB reset detected

  212. 

  213. 	if (status & USB_USBSTS_UI) {

  214. 		//printf("data\n");

  215. 		uint32_t setupstatus = USB1_ENDPTSETUPSTAT;

  216. 		//printf("USB1_ENDPTSETUPSTAT=%X\n", setupstatus);

  217. 		while (setupstatus) {

  218. 			USB1_ENDPTSETUPSTAT = setupstatus;

  219. 			setup_t s;

  220. 			do {

  221. 				USB1_USBCMD |= USB_USBCMD_SUTW;

  222. 				s.word1 = endpoint_queue_head[0].setup0;

  223. 				s.word2 = endpoint_queue_head[0].setup1;

  224. 			} while (!(USB1_USBCMD & USB_USBCMD_SUTW));

  225. 			USB1_USBCMD &= ~USB_USBCMD_SUTW;

  226. 			//printf("setup %08lX %08lX\n", s.word1, s.word2);

  227. 			USB1_ENDPTFLUSH = (1<<16) | (1<<0); // page 3174

  228. 			while (USB1_ENDPTFLUSH & ((1<<16) | (1<<0))) ;

  229. 			endpoint0_notify_mask = 0;

  230. 			endpoint0_setup(s.bothwords);

  231. 			setupstatus = USB1_ENDPTSETUPSTAT; // page 3175

  232. 		}

  233. 		uint32_t completestatus = USB1_ENDPTCOMPLETE;

  234. 		if (completestatus) {

  235. 			USB1_ENDPTCOMPLETE = completestatus;

  236. 			//printf("USB1_ENDPTCOMPLETE=%lX\n", completestatus);

  237. 			if (completestatus & endpoint0_notify_mask) {

  238. 				endpoint0_notify_mask = 0;

  239. 				endpoint0_complete();

  240. 			}

  241. 			completestatus &= endpointN_notify_mask;

  242. 			if (completestatus) {

  243. 				int i;   // TODO: optimize with __builtin_ctz()

  244. 				for (i=2; i < NUM_ENDPOINTS; i++) {

  245. 					if (completestatus & (1 << i)) { // receive

  246. 						run_callbacks(endpoint_queue_head + i * 2);

  247. 					}

  248. 					if (completestatus & (1 << (i + 16))) { // transmit

  249. 						run_callbacks(endpoint_queue_head + i * 2 + 1);

  250. 					}

  251. 				}

  252. 			}

  253. 		}

  254. 	}

  255. 	if (status & USB_USBSTS_URI) { // page 3164

  256. 		USB1_ENDPTSETUPSTAT = USB1_ENDPTSETUPSTAT; // Clear all setup token semaphores

  257. 		USB1_ENDPTCOMPLETE = USB1_ENDPTCOMPLETE; // Clear all the endpoint complete status

  258. 		while (USB1_ENDPTPRIME != 0) ; // Wait for any endpoint priming

  259. 		USB1_ENDPTFLUSH = 0xFFFFFFFF;  // Cancel all endpoint primed status

  260. 		if ((USB1_PORTSC1 & USB_PORTSC1_PR)) {

  261. 			//printf("reset\n");

  262. 		} else {

  263. 			// we took too long to respond :(

  264. 			// TODO; is this ever really a problem?

  265. 			//printf("reset too slow\n");

  266. 		}

  267. 		#if defined(CDC_STATUS_INTERFACE) && defined(CDC_DATA_INTERFACE)

  268. 		usb_serial_reset();

  269. 		#endif

  270. 		endpointN_notify_mask = 0;

  271. 		// TODO: Free all allocated dTDs 

  272. 		//if (++reset_count >= 3) {

  273. 			// shut off USB - easier to see results in protocol analyzer

  274. 			//USB1_USBCMD &= ~USB_USBCMD_RS;

  275. 			//printf("shut off USB\n");

  276. 		//}

  277. 	}

  278. 	if (status & USB_USBSTS_PCI) {

  279. 		if (USB1_PORTSC1 & USB_PORTSC1_HSP) {

  280. 			//printf("port at 480 Mbit\n");

  281. 		} else {

  282. 			//printf("port at 12 Mbit\n");

  283. 		}

  284. 	}

  285. 	if (status & USB_USBSTS_SLI) { // page 3165

  286. 		//printf("suspend\n");

  287. 	}

  288. 	if (status & USB_USBSTS_UEI) {

  289. 		//printf("error\n");

  290. 	}

  291. 	if ((USB1_USBINTR & USB_USBINTR_SRE) && (status & USB_USBSTS_SRI)) {

  292. 		printf("sof %d\n", usb_reboot_timer);

  293. 		if (usb_reboot_timer) {

  294. 			if (--usb_reboot_timer == 0) {

  295. 				asm("bkpt #251"); // run bootloader

  296. 			}

  297. 		} else {

  298. 			// turn off the SOF interrupt if nothing using it

  299. 			USB1_USBINTR &= ~USB_USBINTR_SRE;

  300. 		}

  301. 	}

  302. }

  303. 

  304. 

  305. /*

  306. struct transfer_struct { // table 55-60, pg 3159

  307. 	uint32_t next;

  308. 	uint32_t status;

  309. 	uint32_t pointer0;

  310. 	uint32_t pointer1;

  311. 	uint32_t pointer2;

  312. 	uint32_t pointer3;

  313. 	uint32_t pointer4;

  314. 	uint32_t unused1;

  315. };

  316. transfer_t endpoint0_transfer_data __attribute__ ((aligned(32)));;

  317. transfer_t endpoint0_transfer_ack  __attribute__ ((aligned(32)));;

  318. */

  319. 

  320. static void endpoint0_setup(uint64_t setupdata)

  321. {

  322. 	setup_t setup;

  323. 	uint32_t datalen = 0;

  324. 	const usb_descriptor_list_t *list;

  325. 

  326. 	setup.bothwords = setupdata;

  327. 	switch (setup.wRequestAndType) {

  328. 	  case 0x0500: // SET_ADDRESS

  329. 		endpoint0_receive(NULL, 0, 0);

  330. 		USB1_DEVICEADDR = USB_DEVICEADDR_USBADR(setup.wValue) | USB_DEVICEADDR_USBADRA;

  331. 		return;

  332. 	  case 0x0900: // SET_CONFIGURATION

  333. 		usb_configuration = setup.wValue;

  334. 		// configure all other endpoints

  335. 		volatile uint32_t *reg = &USB1_ENDPTCTRL1;

  336. 		const uint32_t *cfg = usb_endpoint_config_table;

  337. 		int i;

  338. 		for (i=0; i < NUM_ENDPOINTS; i++) {

  339. 			uint32_t n = *cfg++;

  340. 			*reg = n;

  341. 			// TODO: do the TRX & RXR bits self clear??

  342. 			uint32_t m = n & ~(USB_ENDPTCTRL_TXR | USB_ENDPTCTRL_RXR);

  343. 			*reg = m;

  344. 			//uint32_t p = *reg;

  345. 			//printf(" ep=%d: cfg=%08lX - %08lX - %08lX\n", i + 1, n, m, p);

  346. 			reg++;

  347. 		}

  348. 		#if defined(CDC_STATUS_INTERFACE) && defined(CDC_DATA_INTERFACE)

  349. 		usb_serial_configure();

  350. 		#endif

  351. 		endpoint0_receive(NULL, 0, 0);

  352. 		return;

  353. 

  354. 	  case 0x0680: // GET_DESCRIPTOR

  355. 	  case 0x0681:

  356. 		//printf("desc:\n");  // yay - sending device descriptor now works!!!!

  357. 		for (list = usb_descriptor_list; list->addr != NULL; list++) {

  358. 			if (setup.wValue == list->wValue && setup.wIndex == list->wIndex) {

  359. 				if ((setup.wValue >> 8) == 3) {

  360. 					// for string descriptors, use the descriptor's

  361. 					// length field, allowing runtime configured length.

  362. 					datalen = *(list->addr);

  363. 				} else {

  364. 					datalen = list->length;

  365. 				}

  366. 				if (datalen > setup.wLength) datalen = setup.wLength;

  367. 				endpoint0_transmit(list->addr, datalen, 0);

  368. 				return;

  369. 			}

  370. 		}

  371. 		break;

  372. 	  case 0x2221: // CDC_SET_CONTROL_LINE_STATE

  373. 		usb_cdc_line_rtsdtr_millis = systick_millis_count;

  374. 		usb_cdc_line_rtsdtr = setup.wValue;

  375. 	  case 0x2321: // CDC_SEND_BREAK

  376. 		endpoint0_receive(NULL, 0, 0);

  377. 		return;

  378. 	  case 0x2021: // CDC_SET_LINE_CODING

  379. 		if (setup.wLength != 7) break;

  380. 		endpoint0_setupdata.bothwords = setupdata;

  381. 		endpoint0_receive(endpoint0_buffer, 7, 1);

  382. 		return;

  383. 	}

  384. 	USB1_ENDPTCTRL0 = 0x000010001; // stall

  385. }

  386. 

  387. static void endpoint0_transmit(const void *data, uint32_t len, int notify)

  388. {

  389. 	//printf("tx %lu\n", len);

  390. 	if (len > 0) {

  391. 		// Executing A Transfer Descriptor, page 3182

  392. 		endpoint0_transfer_data.next = 1;

  393. 		endpoint0_transfer_data.status = (len << 16) | (1<<7);

  394. 		uint32_t addr = (uint32_t)data;

  395. 		endpoint0_transfer_data.pointer0 = addr; // format: table 55-60, pg 3159

  396. 		endpoint0_transfer_data.pointer1 = addr + 4096;

  397. 		endpoint0_transfer_data.pointer2 = addr + 8192;

  398. 		endpoint0_transfer_data.pointer3 = addr + 12288;

  399. 		endpoint0_transfer_data.pointer4 = addr + 16384;

  400. 		//  Case 1: Link list is empty, page 3182

  401. 		endpoint_queue_head[1].next = (uint32_t)&endpoint0_transfer_data;

  402. 		endpoint_queue_head[1].status = 0;

  403. 		USB1_ENDPTPRIME |= (1<<16);

  404. 		while (USB1_ENDPTPRIME) ;

  405. 	}

  406. 	endpoint0_transfer_ack.next = 1;

  407. 	endpoint0_transfer_ack.status = (1<<7) | (notify ? (1 << 15) : 0);

  408. 	endpoint0_transfer_ack.pointer0 = 0;

  409. 	endpoint_queue_head[0].next = (uint32_t)&endpoint0_transfer_ack;

  410. 	endpoint_queue_head[0].status = 0;

  411. 	USB1_ENDPTPRIME |= (1<<0);

  412. 	endpoint0_notify_mask = (notify ? (1 << 0) : 0);

  413. 	while (USB1_ENDPTPRIME) ;

  414. }

  415. 

  416. static void endpoint0_receive(void *data, uint32_t len, int notify)

  417. {

  418. 	//printf("rx %lu\n", len);

  419. 	if (len > 0) {

  420. 		// Executing A Transfer Descriptor, page 3182

  421. 		endpoint0_transfer_data.next = 1;

  422. 		endpoint0_transfer_data.status = (len << 16) | (1<<7);

  423. 		uint32_t addr = (uint32_t)data;

  424. 		endpoint0_transfer_data.pointer0 = addr; // format: table 55-60, pg 3159

  425. 		endpoint0_transfer_data.pointer1 = addr + 4096;

  426. 		endpoint0_transfer_data.pointer2 = addr + 8192;

  427. 		endpoint0_transfer_data.pointer3 = addr + 12288;

  428. 		endpoint0_transfer_data.pointer4 = addr + 16384;

  429. 		//  Case 1: Link list is empty, page 3182

  430. 		endpoint_queue_head[0].next = (uint32_t)&endpoint0_transfer_data;

  431. 		endpoint_queue_head[0].status = 0;

  432. 		USB1_ENDPTPRIME |= (1<<0);

  433. 		while (USB1_ENDPTPRIME) ;

  434. 	}

  435. 	endpoint0_transfer_ack.next = 1;

  436. 	endpoint0_transfer_ack.status = (1<<7) | (notify ? (1 << 15) : 0);

  437. 	endpoint0_transfer_ack.pointer0 = 0;

  438. 	endpoint_queue_head[1].next = (uint32_t)&endpoint0_transfer_ack;

  439. 	endpoint_queue_head[1].status = 0;

  440. 	USB1_ENDPTPRIME |= (1<<16);

  441. 	endpoint0_notify_mask = (notify ? (1 << 16) : 0);

  442. 	while (USB1_ENDPTPRIME) ;

  443. }

  444. 

  445. /*typedef union {

  446.  struct {

  447.   union {

  448.    struct {

  449.         uint8_t bmRequestType;

  450.         uint8_t bRequest;

  451.    };

  452.         uint16_t wRequestAndType;

  453.   };

  454.         uint16_t wValue;

  455.         uint16_t wIndex;

  456.         uint16_t wLength;

  457.  };

  458.  struct {

  459.         uint32_t word1;

  460.         uint32_t word2;

  461.  };

  462. 	uint64_t bothwords;

  463. } setup_t; */

  464. 

  465. 

  466. static void endpoint0_complete(void)

  467. {

  468. 	setup_t setup;

  469. 

  470. 	setup.bothwords = endpoint0_setupdata.bothwords;

  471. 	//printf("complete\n");

  472. #ifdef CDC_STATUS_INTERFACE

  473. 	if (setup.wRequestAndType == 0x2021 /*CDC_SET_LINE_CODING*/) {

  474. 		memcpy(usb_cdc_line_coding, endpoint0_buffer, 7);

  475. 		printf("usb_cdc_line_coding, baud=%u\n", usb_cdc_line_coding[0]);

  476. 		if (usb_cdc_line_coding[0] == 134) {

  477. 			USB1_USBINTR |= USB_USBINTR_SRE;

  478. 			usb_reboot_timer = 80; // TODO: 10 if only 12 Mbit/sec

  479. 		}

  480. 	}

  481. #endif

  482. }

  483. 

  484. static void usb_endpoint_config(endpoint_t *qh, uint32_t config, void (*callback)(transfer_t *))

  485. {

  486. 	memset(qh, 0, sizeof(endpoint_t));

  487. 	qh->config = config;

  488. 	qh->callback_function = callback;

  489. }

  490. 

  491. void usb_config_rx(uint32_t ep, uint32_t packet_size, int do_zlp, void (*cb)(transfer_t *))

  492. {

  493. 	uint32_t config = (packet_size << 16) | (do_zlp ? 0 : (1 << 29));

  494. 	if (ep < 2 || ep > NUM_ENDPOINTS) return;

  495. 	usb_endpoint_config(endpoint_queue_head + ep * 2, config, cb);

  496. 	if (cb) endpointN_notify_mask |= (1 << ep);

  497. }

  498. 

  499. void usb_config_tx(uint32_t ep, uint32_t packet_size, int do_zlp, void (*cb)(transfer_t *))

  500. {

  501. 	uint32_t config = (packet_size << 16) | (do_zlp ? 0 : (1 << 29));

  502. 	if (ep < 2 || ep > NUM_ENDPOINTS) return;

  503. 	usb_endpoint_config(endpoint_queue_head + ep * 2 + 1, config, cb);

  504. 	if (cb) endpointN_notify_mask |= (1 << (ep + 16));

  505. }

  506. 

  507. 

  508. 

  509. void usb_prepare_transfer(transfer_t *transfer, const void *data, uint32_t len, uint32_t param)

  510. {

  511. 	transfer->next = 1;

  512. 	transfer->status = (len << 16) | (1<<7);

  513. 	uint32_t addr = (uint32_t)data;

  514. 	transfer->pointer0 = addr;

  515. 	transfer->pointer1 = addr + 4096;

  516. 	transfer->pointer2 = addr + 8192;

  517. 	transfer->pointer3 = addr + 12288;

  518. 	transfer->pointer4 = addr + 16384;

  519. 	transfer->callback_param = param;

  520. }

  521. 

  522. 

  523. static void schedule_transfer(endpoint_t *endpoint, uint32_t epmask, transfer_t *transfer)

  524. {

  525. 	if (endpoint->callback_function) {

  526. 		transfer->status |= (1<<15);

  527. 	} else {

  528. 		//transfer->status |= (1<<15);

  529. 		// remove all inactive transfers

  530. 	}

  531. 	__disable_irq();

  532. #if 0

  533. 	if (endpoint->last_transfer) {

  534. 		if (!(endpoint->last_transfer->status & (1<<7))) {

  535. 			endpoint->last_transfer->next = (uint32_t)transfer;

  536. 		} else {

  537. 			// Case 2: Link list is not empty, page 3182

  538. 			endpoint->last_transfer->next = (uint32_t)transfer;

  539. 			if (USB1_ENDPTPRIME & epmask) {

  540. 				endpoint->last_transfer = transfer;

  541. 				__enable_irq();

  542. 				printf(" case 2a\n");

  543. 				return;

  544. 			}

  545. 			uint32_t stat;

  546. 			uint32_t cmd = USB1_USBCMD;

  547. 			do {

  548. 				USB1_USBCMD = cmd | USB_USBCMD_ATDTW;

  549. 				stat = USB1_ENDPTSTATUS;

  550. 			} while (!(USB1_USBCMD & USB_USBCMD_ATDTW));

  551. 			USB1_USBCMD = cmd & ~USB_USBCMD_ATDTW;

  552. 			if (stat & epmask) {

  553. 				endpoint->last_transfer = transfer;

  554. 				__enable_irq();

  555. 				printf(" case 2b\n");

  556. 				return;

  557. 			}

  558. 		}

  559. 	} else {

  560. 		endpoint->first_transfer = transfer;

  561. 	}

  562. 	endpoint->last_transfer = transfer;

  563. #endif

  564. 	// Case 1: Link list is empty, page 3182

  565. 	endpoint->next = (uint32_t)transfer;

  566. 	endpoint->status = 0;

  567. 	endpoint->first_transfer = (uint32_t)transfer;

  568. 	endpoint->last_transfer = (uint32_t)transfer;

  569. 	USB1_ENDPTPRIME |= epmask;

  570. 	while (USB1_ENDPTPRIME & epmask) ;

  571. 	__enable_irq();

  572. 	//printf(" case 1\n");

  573. 

  574. 

  575. 	// ENDPTPRIME - momentarily set by hardware during hardware re-priming

  576. 	//		 operations when a dTD is retired, and the dQH is updated.

  577. 

  578. 	// ENDPTSTAT -   Transmit Buffer Ready - set to one by the hardware as a

  579. 	//		 response to receiving a command from a corresponding bit

  580. 	//		 in the ENDPTPRIME register.  . Buffer ready is cleared by

  581. 	//		 USB reset, by the USB DMA system, or through the ENDPTFLUSH

  582. 	//		 register.  (so 0=buffer ready, 1=buffer primed for transmit)

  583. 

  584. }

  585. 

  586. void usb_transmit(int endpoint_number, transfer_t *transfer)

  587. {

  588. 	if (endpoint_number < 2 || endpoint_number > NUM_ENDPOINTS) return;

  589. 	endpoint_t *endpoint = endpoint_queue_head + endpoint_number * 2 + 1;

  590. 	uint32_t mask = 1 << (endpoint_number + 16);

  591. 	schedule_transfer(endpoint, mask, transfer);

  592. }

  593. 

  594. void usb_receive(int endpoint_number, transfer_t *transfer)

  595. {

  596. 	if (endpoint_number < 2 || endpoint_number > NUM_ENDPOINTS) return;

  597. 	endpoint_t *endpoint = endpoint_queue_head + endpoint_number * 2;

  598. 	uint32_t mask = 1 << endpoint_number;

  599. 	schedule_transfer(endpoint, mask, transfer);

  600. }

  601. 

  602. 

  603. 

  604. 

  605. 

  606. 

  607. 

  608. #if 0

  609. void usb_transmit(int endpoint_number, transfer_t *transfer)

  610. {

  611. 	// endpoint 0 reserved for control

  612. 	// endpoint 1 reserved for debug

  613. //printf("usb_transmit %d\n", endpoint_number);

  614. 	if (endpoint_number < 2 || endpoint_number > NUM_ENDPOINTS) return;

  615. 	endpoint_t *endpoint = &endpoint_queue_head[endpoint_number * 2 + 1];

  616. 	if (endpoint->callback_function) {

  617. 		transfer->status |= (1<<15);

  618. 	} else {

  619. 		//transfer->status |= (1<<15);

  620. 		// remove all inactive transfers

  621. 	}

  622. 	uint32_t mask = 1 << (endpoint_number + 16);

  623. 	__disable_irq();

  624. #if 0

  625. 	if (endpoint->last_transfer) {

  626. 		if (!(endpoint->last_transfer->status & (1<<7))) {

  627. 			endpoint->last_transfer->next = (uint32_t)transfer;

  628. 		} else {

  629. 			// Case 2: Link list is not empty, page 3182

  630. 			endpoint->last_transfer->next = (uint32_t)transfer;

  631. 			if (USB1_ENDPTPRIME & mask) {

  632. 				endpoint->last_transfer = transfer;

  633. 				__enable_irq();

  634. 				printf(" case 2a\n");

  635. 				return;

  636. 			}

  637. 			uint32_t stat;

  638. 			uint32_t cmd = USB1_USBCMD;

  639. 			do {

  640. 				USB1_USBCMD = cmd | USB_USBCMD_ATDTW;

  641. 				stat = USB1_ENDPTSTATUS;

  642. 			} while (!(USB1_USBCMD & USB_USBCMD_ATDTW));

  643. 			USB1_USBCMD = cmd & ~USB_USBCMD_ATDTW;

  644. 			if (stat & mask) {

  645. 				endpoint->last_transfer = transfer;

  646. 				__enable_irq();

  647. 				printf(" case 2b\n");

  648. 				return;

  649. 			}

  650. 		}

  651. 	} else {

  652. 		endpoint->first_transfer = transfer;

  653. 	}

  654. 	endpoint->last_transfer = transfer;

  655. #endif

  656. 	// Case 1: Link list is empty, page 3182

  657. 	endpoint->next = (uint32_t)transfer;

  658. 	endpoint->status = 0;

  659. 	USB1_ENDPTPRIME |= mask;

  660. 	while (USB1_ENDPTPRIME & mask) ;

  661. 	__enable_irq();

  662. 	//printf(" case 1\n");

  663. 

  664. 

  665. 	// ENDPTPRIME - momentarily set by hardware during hardware re-priming

  666. 	//		 operations when a dTD is retired, and the dQH is updated.

  667. 

  668. 	// ENDPTSTAT -   Transmit Buffer Ready - set to one by the hardware as a

  669. 	//		 response to receiving a command from a corresponding bit

  670. 	//		 in the ENDPTPRIME register.  . Buffer ready is cleared by

  671. 	//		 USB reset, by the USB DMA system, or through the ENDPTFLUSH

  672. 	//		 register.  (so 0=buffer ready, 1=buffer primed for transmit)

  673. 

  674. }

  675. #endif

  676. 

  677. /*struct endpoint_struct {

  678. 	uint32_t config;

  679. 	uint32_t current;

  680. 	uint32_t next;

  681. 	uint32_t status;

  682. 	uint32_t pointer0;

  683. 	uint32_t pointer1;

  684. 	uint32_t pointer2;

  685. 	uint32_t pointer3;

  686. 	uint32_t pointer4;

  687. 	uint32_t reserved;

  688. 	uint32_t setup0;

  689. 	uint32_t setup1;

  690. 	transfer_t *first_transfer;

  691. 	transfer_t *last_transfer;

  692. 	void (*callback_function)(transfer_t *completed_transfer);

  693. 	uint32_t unused1;

  694. };*/

  695. 

  696. 

  697. 

  698. 

  699. 

  700. 

  701. 

  702. 

  703. 

  704. 

  705. 

  706. 

  707. 

  708. 

  709. 

  710. 

  711. 

  712. 

  713. 

  714. 

  715. 

  716. 

  717. 

  718. 

  719. 

  720. 

  721. 

  722.