USB device stack
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USBHAL_LPC17.cpp
00001 /* Copyright (c) 2010-2011 mbed.org, MIT License 00002 * 00003 * Permission is hereby granted, free of charge, to any person obtaining a copy of this software 00004 * and associated documentation files (the "Software"), to deal in the Software without 00005 * restriction, including without limitation the rights to use, copy, modify, merge, publish, 00006 * distribute, sublicense, and/or sell copies of the Software, and to permit persons to whom the 00007 * Software is furnished to do so, subject to the following conditions: 00008 * 00009 * The above copyright notice and this permission notice shall be included in all copies or 00010 * substantial portions of the Software. 00011 * 00012 * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, INCLUDING 00013 * BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND 00014 * NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, 00015 * DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, 00016 * OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. 00017 */ 00018 00019 #if defined(TARGET_LPC1768) || defined(TARGET_LPC2368) || defined(TARGET_LPC2460) 00020 00021 #include "USBHAL.h" 00022 00023 00024 // Get endpoint direction 00025 #define IN_EP(endpoint) ((endpoint) & 1U ? true : false) 00026 #define OUT_EP(endpoint) ((endpoint) & 1U ? false : true) 00027 00028 // Convert physical endpoint number to register bit 00029 #define EP(endpoint) (1UL<<endpoint) 00030 00031 // Power Control for Peripherals register 00032 #define PCUSB (1UL<<31) 00033 00034 // USB Clock Control register 00035 #define DEV_CLK_EN (1UL<<1) 00036 #define AHB_CLK_EN (1UL<<4) 00037 00038 // USB Clock Status register 00039 #define DEV_CLK_ON (1UL<<1) 00040 #define AHB_CLK_ON (1UL<<4) 00041 00042 // USB Device Interupt registers 00043 #define FRAME (1UL<<0) 00044 #define EP_FAST (1UL<<1) 00045 #define EP_SLOW (1UL<<2) 00046 #define DEV_STAT (1UL<<3) 00047 #define CCEMPTY (1UL<<4) 00048 #define CDFULL (1UL<<5) 00049 #define RxENDPKT (1UL<<6) 00050 #define TxENDPKT (1UL<<7) 00051 #define EP_RLZED (1UL<<8) 00052 #define ERR_INT (1UL<<9) 00053 00054 // USB Control register 00055 #define RD_EN (1<<0) 00056 #define WR_EN (1<<1) 00057 #define LOG_ENDPOINT(endpoint) ((endpoint>>1)<<2) 00058 00059 // USB Receive Packet Length register 00060 #define DV (1UL<<10) 00061 #define PKT_RDY (1UL<<11) 00062 #define PKT_LNGTH_MASK (0x3ff) 00063 00064 // Serial Interface Engine (SIE) 00065 #define SIE_WRITE (0x01) 00066 #define SIE_READ (0x02) 00067 #define SIE_COMMAND (0x05) 00068 #define SIE_CMD_CODE(phase, data) ((phase<<8)|(data<<16)) 00069 00070 // SIE Command codes 00071 #define SIE_CMD_SET_ADDRESS (0xD0) 00072 #define SIE_CMD_CONFIGURE_DEVICE (0xD8) 00073 #define SIE_CMD_SET_MODE (0xF3) 00074 #define SIE_CMD_READ_FRAME_NUMBER (0xF5) 00075 #define SIE_CMD_READ_TEST_REGISTER (0xFD) 00076 #define SIE_CMD_SET_DEVICE_STATUS (0xFE) 00077 #define SIE_CMD_GET_DEVICE_STATUS (0xFE) 00078 #define SIE_CMD_GET_ERROR_CODE (0xFF) 00079 #define SIE_CMD_READ_ERROR_STATUS (0xFB) 00080 00081 #define SIE_CMD_SELECT_ENDPOINT(endpoint) (0x00+endpoint) 00082 #define SIE_CMD_SELECT_ENDPOINT_CLEAR_INTERRUPT(endpoint) (0x40+endpoint) 00083 #define SIE_CMD_SET_ENDPOINT_STATUS(endpoint) (0x40+endpoint) 00084 00085 #define SIE_CMD_CLEAR_BUFFER (0xF2) 00086 #define SIE_CMD_VALIDATE_BUFFER (0xFA) 00087 00088 // SIE Device Status register 00089 #define SIE_DS_CON (1<<0) 00090 #define SIE_DS_CON_CH (1<<1) 00091 #define SIE_DS_SUS (1<<2) 00092 #define SIE_DS_SUS_CH (1<<3) 00093 #define SIE_DS_RST (1<<4) 00094 00095 // SIE Device Set Address register 00096 #define SIE_DSA_DEV_EN (1<<7) 00097 00098 // SIE Configue Device register 00099 #define SIE_CONF_DEVICE (1<<0) 00100 00101 // Select Endpoint register 00102 #define SIE_SE_FE (1<<0) 00103 #define SIE_SE_ST (1<<1) 00104 #define SIE_SE_STP (1<<2) 00105 #define SIE_SE_PO (1<<3) 00106 #define SIE_SE_EPN (1<<4) 00107 #define SIE_SE_B_1_FULL (1<<5) 00108 #define SIE_SE_B_2_FULL (1<<6) 00109 00110 // Set Endpoint Status command 00111 #define SIE_SES_ST (1<<0) 00112 #define SIE_SES_DA (1<<5) 00113 #define SIE_SES_RF_MO (1<<6) 00114 #define SIE_SES_CND_ST (1<<7) 00115 00116 00117 USBHAL * USBHAL::instance; 00118 00119 static volatile int epComplete; 00120 static uint32_t endpointStallState; 00121 00122 static void SIECommand(uint32_t command) { 00123 // The command phase of a SIE transaction 00124 LPC_USB->USBDevIntClr = CCEMPTY; 00125 LPC_USB->USBCmdCode = SIE_CMD_CODE(SIE_COMMAND, command); 00126 while (!(LPC_USB->USBDevIntSt & CCEMPTY)); 00127 } 00128 00129 static void SIEWriteData(uint8_t data) { 00130 // The data write phase of a SIE transaction 00131 LPC_USB->USBDevIntClr = CCEMPTY; 00132 LPC_USB->USBCmdCode = SIE_CMD_CODE(SIE_WRITE, data); 00133 while (!(LPC_USB->USBDevIntSt & CCEMPTY)); 00134 } 00135 00136 static uint8_t SIEReadData(uint32_t command) { 00137 // The data read phase of a SIE transaction 00138 LPC_USB->USBDevIntClr = CDFULL; 00139 LPC_USB->USBCmdCode = SIE_CMD_CODE(SIE_READ, command); 00140 while (!(LPC_USB->USBDevIntSt & CDFULL)); 00141 return (uint8_t)LPC_USB->USBCmdData; 00142 } 00143 00144 static void SIEsetDeviceStatus(uint8_t status) { 00145 // Write SIE device status register 00146 SIECommand(SIE_CMD_SET_DEVICE_STATUS); 00147 SIEWriteData(status); 00148 } 00149 00150 static uint8_t SIEgetDeviceStatus(void) { 00151 // Read SIE device status register 00152 SIECommand(SIE_CMD_GET_DEVICE_STATUS); 00153 return SIEReadData(SIE_CMD_GET_DEVICE_STATUS); 00154 } 00155 00156 void SIEsetAddress(uint8_t address) { 00157 // Write SIE device address register 00158 SIECommand(SIE_CMD_SET_ADDRESS); 00159 SIEWriteData((address & 0x7f) | SIE_DSA_DEV_EN); 00160 } 00161 00162 static uint8_t SIEselectEndpoint(uint8_t endpoint) { 00163 // SIE select endpoint command 00164 SIECommand(SIE_CMD_SELECT_ENDPOINT(endpoint)); 00165 return SIEReadData(SIE_CMD_SELECT_ENDPOINT(endpoint)); 00166 } 00167 00168 static uint8_t SIEclearBuffer(void) { 00169 // SIE clear buffer command 00170 SIECommand(SIE_CMD_CLEAR_BUFFER); 00171 return SIEReadData(SIE_CMD_CLEAR_BUFFER); 00172 } 00173 00174 static void SIEvalidateBuffer(void) { 00175 // SIE validate buffer command 00176 SIECommand(SIE_CMD_VALIDATE_BUFFER); 00177 } 00178 00179 static void SIEsetEndpointStatus(uint8_t endpoint, uint8_t status) { 00180 // SIE set endpoint status command 00181 SIECommand(SIE_CMD_SET_ENDPOINT_STATUS(endpoint)); 00182 SIEWriteData(status); 00183 } 00184 00185 static uint16_t SIEgetFrameNumber(void) __attribute__ ((unused)); 00186 static uint16_t SIEgetFrameNumber(void) { 00187 // Read current frame number 00188 uint16_t lowByte; 00189 uint16_t highByte; 00190 00191 SIECommand(SIE_CMD_READ_FRAME_NUMBER); 00192 lowByte = SIEReadData(SIE_CMD_READ_FRAME_NUMBER); 00193 highByte = SIEReadData(SIE_CMD_READ_FRAME_NUMBER); 00194 00195 return (highByte << 8) | lowByte; 00196 } 00197 00198 static void SIEconfigureDevice(void) { 00199 // SIE Configure device command 00200 SIECommand(SIE_CMD_CONFIGURE_DEVICE); 00201 SIEWriteData(SIE_CONF_DEVICE); 00202 } 00203 00204 static void SIEunconfigureDevice(void) { 00205 // SIE Configure device command 00206 SIECommand(SIE_CMD_CONFIGURE_DEVICE); 00207 SIEWriteData(0); 00208 } 00209 00210 static void SIEconnect(void) { 00211 // Connect USB device 00212 uint8_t status = SIEgetDeviceStatus(); 00213 SIEsetDeviceStatus(status | SIE_DS_CON); 00214 } 00215 00216 00217 static void SIEdisconnect(void) { 00218 // Disconnect USB device 00219 uint8_t status = SIEgetDeviceStatus(); 00220 SIEsetDeviceStatus(status & ~SIE_DS_CON); 00221 } 00222 00223 00224 static uint8_t selectEndpointClearInterrupt(uint8_t endpoint) { 00225 // Implemented using using EP_INT_CLR. 00226 LPC_USB->USBEpIntClr = EP(endpoint); 00227 while (!(LPC_USB->USBDevIntSt & CDFULL)); 00228 return (uint8_t)LPC_USB->USBCmdData; 00229 } 00230 00231 00232 static void enableEndpointEvent(uint8_t endpoint) { 00233 // Enable an endpoint interrupt 00234 LPC_USB->USBEpIntEn |= EP(endpoint); 00235 } 00236 00237 static void disableEndpointEvent(uint8_t endpoint) __attribute__ ((unused)); 00238 static void disableEndpointEvent(uint8_t endpoint) { 00239 // Disable an endpoint interrupt 00240 LPC_USB->USBEpIntEn &= ~EP(endpoint); 00241 } 00242 00243 static volatile uint32_t __attribute__((used)) dummyRead; 00244 uint32_t USBHAL::endpointReadcore(uint8_t endpoint, uint8_t *buffer) { 00245 // Read from an OUT endpoint 00246 uint32_t size; 00247 uint32_t i; 00248 uint32_t data = 0; 00249 uint8_t offset; 00250 00251 LPC_USB->USBCtrl = LOG_ENDPOINT(endpoint) | RD_EN; 00252 while (!(LPC_USB->USBRxPLen & PKT_RDY)); 00253 00254 size = LPC_USB->USBRxPLen & PKT_LNGTH_MASK; 00255 00256 offset = 0; 00257 00258 if (size > 0) { 00259 for (i=0; i<size; i++) { 00260 if (offset==0) { 00261 // Fetch up to four bytes of data as a word 00262 data = LPC_USB->USBRxData; 00263 } 00264 00265 // extract a byte 00266 *buffer = (data>>offset) & 0xff; 00267 buffer++; 00268 00269 // move on to the next byte 00270 offset = (offset + 8) % 32; 00271 } 00272 } else { 00273 dummyRead = LPC_USB->USBRxData; 00274 } 00275 00276 LPC_USB->USBCtrl = 0; 00277 00278 if ((endpoint >> 1) % 3 || (endpoint >> 1) == 0) { 00279 SIEselectEndpoint(endpoint); 00280 SIEclearBuffer(); 00281 } 00282 00283 return size; 00284 } 00285 00286 static void endpointWritecore(uint8_t endpoint, uint8_t *buffer, uint32_t size) { 00287 // Write to an IN endpoint 00288 uint32_t temp, data; 00289 uint8_t offset; 00290 00291 LPC_USB->USBCtrl = LOG_ENDPOINT(endpoint) | WR_EN; 00292 00293 LPC_USB->USBTxPLen = size; 00294 offset = 0; 00295 data = 0; 00296 00297 if (size>0) { 00298 do { 00299 // Fetch next data byte into a word-sized temporary variable 00300 temp = *buffer++; 00301 00302 // Add to current data word 00303 temp = temp << offset; 00304 data = data | temp; 00305 00306 // move on to the next byte 00307 offset = (offset + 8) % 32; 00308 size--; 00309 00310 if ((offset==0) || (size==0)) { 00311 // Write the word to the endpoint 00312 LPC_USB->USBTxData = data; 00313 data = 0; 00314 } 00315 } while (size>0); 00316 } else { 00317 LPC_USB->USBTxData = 0; 00318 } 00319 00320 // Clear WR_EN to cover zero length packet case 00321 LPC_USB->USBCtrl=0; 00322 00323 SIEselectEndpoint(endpoint); 00324 SIEvalidateBuffer(); 00325 } 00326 00327 USBHAL::USBHAL(void) { 00328 // Disable IRQ 00329 NVIC_DisableIRQ(USB_IRQn); 00330 00331 // fill in callback array 00332 epCallback[0] = &USBHAL::EP1_OUT_callback; 00333 epCallback[1] = &USBHAL::EP1_IN_callback; 00334 epCallback[2] = &USBHAL::EP2_OUT_callback; 00335 epCallback[3] = &USBHAL::EP2_IN_callback; 00336 epCallback[4] = &USBHAL::EP3_OUT_callback; 00337 epCallback[5] = &USBHAL::EP3_IN_callback; 00338 epCallback[6] = &USBHAL::EP4_OUT_callback; 00339 epCallback[7] = &USBHAL::EP4_IN_callback; 00340 epCallback[8] = &USBHAL::EP5_OUT_callback; 00341 epCallback[9] = &USBHAL::EP5_IN_callback; 00342 epCallback[10] = &USBHAL::EP6_OUT_callback; 00343 epCallback[11] = &USBHAL::EP6_IN_callback; 00344 epCallback[12] = &USBHAL::EP7_OUT_callback; 00345 epCallback[13] = &USBHAL::EP7_IN_callback; 00346 epCallback[14] = &USBHAL::EP8_OUT_callback; 00347 epCallback[15] = &USBHAL::EP8_IN_callback; 00348 epCallback[16] = &USBHAL::EP9_OUT_callback; 00349 epCallback[17] = &USBHAL::EP9_IN_callback; 00350 epCallback[18] = &USBHAL::EP10_OUT_callback; 00351 epCallback[19] = &USBHAL::EP10_IN_callback; 00352 epCallback[20] = &USBHAL::EP11_OUT_callback; 00353 epCallback[21] = &USBHAL::EP11_IN_callback; 00354 epCallback[22] = &USBHAL::EP12_OUT_callback; 00355 epCallback[23] = &USBHAL::EP12_IN_callback; 00356 epCallback[24] = &USBHAL::EP13_OUT_callback; 00357 epCallback[25] = &USBHAL::EP13_IN_callback; 00358 epCallback[26] = &USBHAL::EP14_OUT_callback; 00359 epCallback[27] = &USBHAL::EP14_IN_callback; 00360 epCallback[28] = &USBHAL::EP15_OUT_callback; 00361 epCallback[29] = &USBHAL::EP15_IN_callback; 00362 00363 // Enable power to USB device controller 00364 LPC_SC->PCONP |= PCUSB; 00365 00366 // Enable USB clocks 00367 LPC_USB->USBClkCtrl |= DEV_CLK_EN | AHB_CLK_EN; 00368 while (LPC_USB->USBClkSt != (DEV_CLK_ON | AHB_CLK_ON)); 00369 00370 // Configure pins P0.29 and P0.30 to be USB D+ and USB D- 00371 LPC_PINCON->PINSEL1 &= 0xc3ffffff; 00372 LPC_PINCON->PINSEL1 |= 0x14000000; 00373 00374 // Disconnect USB device 00375 SIEdisconnect(); 00376 00377 // Configure pin P2.9 to be Connect 00378 LPC_PINCON->PINSEL4 &= 0xfffcffff; 00379 LPC_PINCON->PINSEL4 |= 0x00040000; 00380 00381 // Connect must be low for at least 2.5uS 00382 wait(0.3); 00383 00384 // Set the maximum packet size for the control endpoints 00385 realiseEndpoint(EP0IN, MAX_PACKET_SIZE_EP0, 0); 00386 realiseEndpoint(EP0OUT, MAX_PACKET_SIZE_EP0, 0); 00387 00388 // Attach IRQ 00389 instance = this; 00390 NVIC_SetVector(USB_IRQn, (uint32_t)&_usbisr); 00391 00392 // Enable interrupts for device events and EP0 00393 LPC_USB->USBDevIntEn = EP_SLOW | DEV_STAT | FRAME; 00394 enableEndpointEvent(EP0IN); 00395 enableEndpointEvent(EP0OUT); 00396 } 00397 00398 USBHAL::~USBHAL(void) { 00399 // Ensure device disconnected 00400 SIEdisconnect(); 00401 // Disable USB interrupts 00402 NVIC_DisableIRQ(USB_IRQn); 00403 } 00404 00405 void USBHAL::connect(void) { 00406 NVIC_EnableIRQ(USB_IRQn); 00407 // Connect USB device 00408 SIEconnect(); 00409 } 00410 00411 void USBHAL::disconnect(void) { 00412 NVIC_DisableIRQ(USB_IRQn); 00413 // Disconnect USB device 00414 SIEdisconnect(); 00415 } 00416 00417 void USBHAL::configureDevice(void) { 00418 SIEconfigureDevice(); 00419 } 00420 00421 void USBHAL::unconfigureDevice(void) { 00422 SIEunconfigureDevice(); 00423 } 00424 00425 void USBHAL::setAddress(uint8_t address) { 00426 SIEsetAddress(address); 00427 } 00428 00429 void USBHAL::EP0setup(uint8_t *buffer) { 00430 endpointReadcore(EP0OUT, buffer); 00431 } 00432 00433 void USBHAL::EP0read(void) { 00434 // Not required 00435 } 00436 00437 void USBHAL::EP0readStage(void) { 00438 // Not required 00439 } 00440 00441 uint32_t USBHAL::EP0getReadResult(uint8_t *buffer) { 00442 return endpointReadcore(EP0OUT, buffer); 00443 } 00444 00445 void USBHAL::EP0write(uint8_t *buffer, uint32_t size) { 00446 endpointWritecore(EP0IN, buffer, size); 00447 } 00448 00449 void USBHAL::EP0getWriteResult(void) { 00450 // Not required 00451 } 00452 00453 void USBHAL::EP0stall(void) { 00454 // This will stall both control endpoints 00455 stallEndpoint(EP0OUT); 00456 } 00457 00458 EP_STATUS USBHAL::endpointRead(uint8_t endpoint, uint32_t maximumSize) { 00459 return EP_PENDING; 00460 } 00461 00462 EP_STATUS USBHAL::endpointReadResult(uint8_t endpoint, uint8_t * buffer, uint32_t *bytesRead) { 00463 00464 //for isochronous endpoint, we don't wait an interrupt 00465 if ((endpoint >> 1) % 3 || (endpoint >> 1) == 0) { 00466 if (!(epComplete & EP(endpoint))) 00467 return EP_PENDING; 00468 } 00469 00470 *bytesRead = endpointReadcore(endpoint, buffer); 00471 epComplete &= ~EP(endpoint); 00472 return EP_COMPLETED; 00473 } 00474 00475 EP_STATUS USBHAL::endpointWrite(uint8_t endpoint, uint8_t *data, uint32_t size) { 00476 if (getEndpointStallState(endpoint)) { 00477 return EP_STALLED; 00478 } 00479 00480 epComplete &= ~EP(endpoint); 00481 00482 endpointWritecore(endpoint, data, size); 00483 return EP_PENDING; 00484 } 00485 00486 EP_STATUS USBHAL::endpointWriteResult(uint8_t endpoint) { 00487 if (epComplete & EP(endpoint)) { 00488 epComplete &= ~EP(endpoint); 00489 return EP_COMPLETED; 00490 } 00491 00492 return EP_PENDING; 00493 } 00494 00495 bool USBHAL::realiseEndpoint(uint8_t endpoint, uint32_t maxPacket, uint32_t flags) { 00496 // Realise an endpoint 00497 LPC_USB->USBDevIntClr = EP_RLZED; 00498 LPC_USB->USBReEp |= EP(endpoint); 00499 LPC_USB->USBEpInd = endpoint; 00500 LPC_USB->USBMaxPSize = maxPacket; 00501 00502 while (!(LPC_USB->USBDevIntSt & EP_RLZED)); 00503 LPC_USB->USBDevIntClr = EP_RLZED; 00504 00505 // Clear stall state 00506 endpointStallState &= ~EP(endpoint); 00507 00508 enableEndpointEvent(endpoint); 00509 return true; 00510 } 00511 00512 void USBHAL::stallEndpoint(uint8_t endpoint) { 00513 // Stall an endpoint 00514 if ( (endpoint==EP0IN) || (endpoint==EP0OUT) ) { 00515 // Conditionally stall both control endpoints 00516 SIEsetEndpointStatus(EP0OUT, SIE_SES_CND_ST); 00517 } else { 00518 SIEsetEndpointStatus(endpoint, SIE_SES_ST); 00519 00520 // Update stall state 00521 endpointStallState |= EP(endpoint); 00522 } 00523 } 00524 00525 void USBHAL::unstallEndpoint(uint8_t endpoint) { 00526 // Unstall an endpoint. The endpoint will also be reinitialised 00527 SIEsetEndpointStatus(endpoint, 0); 00528 00529 // Update stall state 00530 endpointStallState &= ~EP(endpoint); 00531 } 00532 00533 bool USBHAL::getEndpointStallState(uint8_t endpoint) { 00534 // Returns true if endpoint stalled 00535 return endpointStallState & EP(endpoint); 00536 } 00537 00538 void USBHAL::remoteWakeup(void) { 00539 // Remote wakeup 00540 uint8_t status; 00541 00542 // Enable USB clocks 00543 LPC_USB->USBClkCtrl |= DEV_CLK_EN | AHB_CLK_EN; 00544 while (LPC_USB->USBClkSt != (DEV_CLK_ON | AHB_CLK_ON)); 00545 00546 status = SIEgetDeviceStatus(); 00547 SIEsetDeviceStatus(status & ~SIE_DS_SUS); 00548 } 00549 00550 void USBHAL::_usbisr(void) { 00551 instance->usbisr(); 00552 } 00553 00554 00555 void USBHAL::usbisr(void) { 00556 uint8_t devStat; 00557 00558 if (LPC_USB->USBDevIntSt & FRAME) { 00559 // Start of frame event 00560 SOF(SIEgetFrameNumber()); 00561 // Clear interrupt status flag 00562 LPC_USB->USBDevIntClr = FRAME; 00563 } 00564 00565 if (LPC_USB->USBDevIntSt & DEV_STAT) { 00566 // Device Status interrupt 00567 // Must clear the interrupt status flag before reading the device status from the SIE 00568 LPC_USB->USBDevIntClr = DEV_STAT; 00569 00570 // Read device status from SIE 00571 devStat = SIEgetDeviceStatus(); 00572 //printf("devStat: %d\r\n", devStat); 00573 00574 if (devStat & SIE_DS_SUS_CH) { 00575 // Suspend status changed 00576 if((devStat & SIE_DS_SUS) != 0) { 00577 suspendStateChanged(0); 00578 } 00579 } 00580 00581 if (devStat & SIE_DS_RST) { 00582 // Bus reset 00583 if((devStat & SIE_DS_SUS) == 0) { 00584 suspendStateChanged(1); 00585 } 00586 busReset(); 00587 } 00588 } 00589 00590 if (LPC_USB->USBDevIntSt & EP_SLOW) { 00591 // (Slow) Endpoint Interrupt 00592 00593 // Process each endpoint interrupt 00594 if (LPC_USB->USBEpIntSt & EP(EP0OUT)) { 00595 if (selectEndpointClearInterrupt(EP0OUT) & SIE_SE_STP) { 00596 // this is a setup packet 00597 EP0setupCallback(); 00598 } else { 00599 EP0out(); 00600 } 00601 LPC_USB->USBDevIntClr = EP_SLOW; 00602 } 00603 00604 if (LPC_USB->USBEpIntSt & EP(EP0IN)) { 00605 selectEndpointClearInterrupt(EP0IN); 00606 LPC_USB->USBDevIntClr = EP_SLOW; 00607 EP0in(); 00608 } 00609 00610 for (uint8_t num = 2; num < 16*2; num++) { 00611 if (LPC_USB->USBEpIntSt & EP(num)) { 00612 selectEndpointClearInterrupt(num); 00613 epComplete |= EP(num); 00614 LPC_USB->USBDevIntClr = EP_SLOW; 00615 if ((instance->*(epCallback[num - 2]))()) { 00616 epComplete &= ~EP(num); 00617 } 00618 } 00619 } 00620 } 00621 } 00622 00623 #endif
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