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Fork of USBDevice by mbed official

USBDevice/USBHAL_LPC40.cpp@51:a3c50882f2c5, 2015-04-20 (annotated)

Committer:: mbed_official
Date:: Mon Apr 20 10:45:54 2015 +0100
Revision:: 51:a3c50882f2c5
Parent:: 41:0ca6eeb54b97

Synchronized with git revision 016b9ad9cba789b99acee1102802355338120b29

Full URL: https://github.com/mbedmicro/mbed/commit/016b9ad9cba789b99acee1102802355338120b29/

NXP's HAL - Fix PwmOut period using SCT

Who changed what in which revision?

User	Revision	Line number	New contents of line
emilmont	10:1e3d126a322b	1	/* Copyright (c) 2010-2011 mbed.org, MIT License
emilmont	10:1e3d126a322b	2	*
emilmont	10:1e3d126a322b	3	* Permission is hereby granted, free of charge, to any person obtaining a copy of this software
emilmont	10:1e3d126a322b	4	* and associated documentation files (the "Software"), to deal in the Software without
emilmont	10:1e3d126a322b	5	* restriction, including without limitation the rights to use, copy, modify, merge, publish,
emilmont	10:1e3d126a322b	6	* distribute, sublicense, and/or sell copies of the Software, and to permit persons to whom the
emilmont	10:1e3d126a322b	7	* Software is furnished to do so, subject to the following conditions:
emilmont	10:1e3d126a322b	8	*
emilmont	10:1e3d126a322b	9	* The above copyright notice and this permission notice shall be included in all copies or
emilmont	10:1e3d126a322b	10	* substantial portions of the Software.
emilmont	10:1e3d126a322b	11	*
emilmont	10:1e3d126a322b	12	* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, INCLUDING
emilmont	10:1e3d126a322b	13	* BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND
emilmont	10:1e3d126a322b	14	* NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM,
emilmont	10:1e3d126a322b	15	* DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
emilmont	10:1e3d126a322b	16	* OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.
emilmont	10:1e3d126a322b	17	*/
emilmont	10:1e3d126a322b	18
mbed_official	41:0ca6eeb54b97	19	#if defined(TARGET_LPC4088) \|\| defined(TARGET_LPC4088_DM)
emilmont	10:1e3d126a322b	20
emilmont	10:1e3d126a322b	21	#include "USBHAL.h"
emilmont	10:1e3d126a322b	22
emilmont	10:1e3d126a322b	23
emilmont	10:1e3d126a322b	24	// Get endpoint direction
emilmont	10:1e3d126a322b	25	#define IN_EP(endpoint) ((endpoint) & 1U ? true : false)
emilmont	10:1e3d126a322b	26	#define OUT_EP(endpoint) ((endpoint) & 1U ? false : true)
emilmont	10:1e3d126a322b	27
emilmont	10:1e3d126a322b	28	// Convert physical endpoint number to register bit
emilmont	10:1e3d126a322b	29	#define EP(endpoint) (1UL<<endpoint)
emilmont	10:1e3d126a322b	30
emilmont	10:1e3d126a322b	31	// Power Control for Peripherals register
emilmont	10:1e3d126a322b	32	#define PCUSB (1UL<<31)
emilmont	10:1e3d126a322b	33
emilmont	10:1e3d126a322b	34	// USB Clock Control register
emilmont	12:6030a12b6c62	35	#define DEV_CLK_EN (1UL<<1)
emilmont	12:6030a12b6c62	36	#define PORT_CLK_EN (1UL<<3)
emilmont	12:6030a12b6c62	37	#define AHB_CLK_EN (1UL<<4)
emilmont	10:1e3d126a322b	38
emilmont	10:1e3d126a322b	39	// USB Clock Status register
emilmont	10:1e3d126a322b	40	#define DEV_CLK_ON (1UL<<1)
emilmont	10:1e3d126a322b	41	#define AHB_CLK_ON (1UL<<4)
emilmont	10:1e3d126a322b	42
emilmont	10:1e3d126a322b	43	// USB Device Interupt registers
emilmont	10:1e3d126a322b	44	#define FRAME (1UL<<0)
emilmont	10:1e3d126a322b	45	#define EP_FAST (1UL<<1)
emilmont	10:1e3d126a322b	46	#define EP_SLOW (1UL<<2)
emilmont	10:1e3d126a322b	47	#define DEV_STAT (1UL<<3)
emilmont	10:1e3d126a322b	48	#define CCEMPTY (1UL<<4)
emilmont	10:1e3d126a322b	49	#define CDFULL (1UL<<5)
emilmont	10:1e3d126a322b	50	#define RxENDPKT (1UL<<6)
emilmont	10:1e3d126a322b	51	#define TxENDPKT (1UL<<7)
emilmont	10:1e3d126a322b	52	#define EP_RLZED (1UL<<8)
emilmont	10:1e3d126a322b	53	#define ERR_INT (1UL<<9)
emilmont	10:1e3d126a322b	54
emilmont	10:1e3d126a322b	55	// USB Control register
emilmont	10:1e3d126a322b	56	#define RD_EN (1<<0)
emilmont	10:1e3d126a322b	57	#define WR_EN (1<<1)
emilmont	10:1e3d126a322b	58	#define LOG_ENDPOINT(endpoint) ((endpoint>>1)<<2)
emilmont	10:1e3d126a322b	59
emilmont	10:1e3d126a322b	60	// USB Receive Packet Length register
emilmont	10:1e3d126a322b	61	#define DV (1UL<<10)
emilmont	10:1e3d126a322b	62	#define PKT_RDY (1UL<<11)
emilmont	10:1e3d126a322b	63	#define PKT_LNGTH_MASK (0x3ff)
emilmont	10:1e3d126a322b	64
emilmont	10:1e3d126a322b	65	// Serial Interface Engine (SIE)
emilmont	10:1e3d126a322b	66	#define SIE_WRITE (0x01)
emilmont	10:1e3d126a322b	67	#define SIE_READ (0x02)
emilmont	10:1e3d126a322b	68	#define SIE_COMMAND (0x05)
emilmont	10:1e3d126a322b	69	#define SIE_CMD_CODE(phase, data) ((phase<<8)\|(data<<16))
emilmont	10:1e3d126a322b	70
emilmont	10:1e3d126a322b	71	// SIE Command codes
emilmont	10:1e3d126a322b	72	#define SIE_CMD_SET_ADDRESS (0xD0)
emilmont	10:1e3d126a322b	73	#define SIE_CMD_CONFIGURE_DEVICE (0xD8)
emilmont	10:1e3d126a322b	74	#define SIE_CMD_SET_MODE (0xF3)
emilmont	10:1e3d126a322b	75	#define SIE_CMD_READ_FRAME_NUMBER (0xF5)
emilmont	10:1e3d126a322b	76	#define SIE_CMD_READ_TEST_REGISTER (0xFD)
emilmont	10:1e3d126a322b	77	#define SIE_CMD_SET_DEVICE_STATUS (0xFE)
emilmont	10:1e3d126a322b	78	#define SIE_CMD_GET_DEVICE_STATUS (0xFE)
emilmont	10:1e3d126a322b	79	#define SIE_CMD_GET_ERROR_CODE (0xFF)
emilmont	10:1e3d126a322b	80	#define SIE_CMD_READ_ERROR_STATUS (0xFB)
emilmont	10:1e3d126a322b	81
emilmont	10:1e3d126a322b	82	#define SIE_CMD_SELECT_ENDPOINT(endpoint) (0x00+endpoint)
emilmont	10:1e3d126a322b	83	#define SIE_CMD_SELECT_ENDPOINT_CLEAR_INTERRUPT(endpoint) (0x40+endpoint)
emilmont	10:1e3d126a322b	84	#define SIE_CMD_SET_ENDPOINT_STATUS(endpoint) (0x40+endpoint)
emilmont	10:1e3d126a322b	85
emilmont	10:1e3d126a322b	86	#define SIE_CMD_CLEAR_BUFFER (0xF2)
emilmont	10:1e3d126a322b	87	#define SIE_CMD_VALIDATE_BUFFER (0xFA)
emilmont	10:1e3d126a322b	88
emilmont	10:1e3d126a322b	89	// SIE Device Status register
emilmont	10:1e3d126a322b	90	#define SIE_DS_CON (1<<0)
emilmont	10:1e3d126a322b	91	#define SIE_DS_CON_CH (1<<1)
emilmont	10:1e3d126a322b	92	#define SIE_DS_SUS (1<<2)
emilmont	10:1e3d126a322b	93	#define SIE_DS_SUS_CH (1<<3)
emilmont	10:1e3d126a322b	94	#define SIE_DS_RST (1<<4)
emilmont	10:1e3d126a322b	95
emilmont	10:1e3d126a322b	96	// SIE Device Set Address register
emilmont	10:1e3d126a322b	97	#define SIE_DSA_DEV_EN (1<<7)
emilmont	10:1e3d126a322b	98
emilmont	10:1e3d126a322b	99	// SIE Configue Device register
emilmont	10:1e3d126a322b	100	#define SIE_CONF_DEVICE (1<<0)
emilmont	10:1e3d126a322b	101
emilmont	10:1e3d126a322b	102	// Select Endpoint register
emilmont	10:1e3d126a322b	103	#define SIE_SE_FE (1<<0)
emilmont	10:1e3d126a322b	104	#define SIE_SE_ST (1<<1)
emilmont	10:1e3d126a322b	105	#define SIE_SE_STP (1<<2)
emilmont	10:1e3d126a322b	106	#define SIE_SE_PO (1<<3)
emilmont	10:1e3d126a322b	107	#define SIE_SE_EPN (1<<4)
emilmont	10:1e3d126a322b	108	#define SIE_SE_B_1_FULL (1<<5)
emilmont	10:1e3d126a322b	109	#define SIE_SE_B_2_FULL (1<<6)
emilmont	10:1e3d126a322b	110
emilmont	10:1e3d126a322b	111	// Set Endpoint Status command
emilmont	10:1e3d126a322b	112	#define SIE_SES_ST (1<<0)
emilmont	10:1e3d126a322b	113	#define SIE_SES_DA (1<<5)
emilmont	10:1e3d126a322b	114	#define SIE_SES_RF_MO (1<<6)
emilmont	10:1e3d126a322b	115	#define SIE_SES_CND_ST (1<<7)
emilmont	10:1e3d126a322b	116
emilmont	10:1e3d126a322b	117
emilmont	10:1e3d126a322b	118	USBHAL * USBHAL::instance;
emilmont	10:1e3d126a322b	119
emilmont	10:1e3d126a322b	120	static volatile int epComplete;
emilmont	10:1e3d126a322b	121	static uint32_t endpointStallState;
emilmont	10:1e3d126a322b	122
emilmont	10:1e3d126a322b	123	static void SIECommand(uint32_t command) {
emilmont	10:1e3d126a322b	124	// The command phase of a SIE transaction
emilmont	10:1e3d126a322b	125	LPC_USB->DevIntClr = CCEMPTY;
emilmont	10:1e3d126a322b	126	LPC_USB->CmdCode = SIE_CMD_CODE(SIE_COMMAND, command);
emilmont	10:1e3d126a322b	127	while (!(LPC_USB->DevIntSt & CCEMPTY));
emilmont	10:1e3d126a322b	128	}
emilmont	10:1e3d126a322b	129
emilmont	10:1e3d126a322b	130	static void SIEWriteData(uint8_t data) {
emilmont	10:1e3d126a322b	131	// The data write phase of a SIE transaction
emilmont	10:1e3d126a322b	132	LPC_USB->DevIntClr = CCEMPTY;
emilmont	10:1e3d126a322b	133	LPC_USB->CmdCode = SIE_CMD_CODE(SIE_WRITE, data);
emilmont	10:1e3d126a322b	134	while (!(LPC_USB->DevIntSt & CCEMPTY));
emilmont	10:1e3d126a322b	135	}
emilmont	10:1e3d126a322b	136
emilmont	10:1e3d126a322b	137	static uint8_t SIEReadData(uint32_t command) {
emilmont	10:1e3d126a322b	138	// The data read phase of a SIE transaction
emilmont	10:1e3d126a322b	139	LPC_USB->DevIntClr = CDFULL;
emilmont	10:1e3d126a322b	140	LPC_USB->CmdCode = SIE_CMD_CODE(SIE_READ, command);
emilmont	10:1e3d126a322b	141	while (!(LPC_USB->DevIntSt & CDFULL));
emilmont	10:1e3d126a322b	142	return (uint8_t)LPC_USB->CmdData;
emilmont	10:1e3d126a322b	143	}
emilmont	10:1e3d126a322b	144
emilmont	10:1e3d126a322b	145	static void SIEsetDeviceStatus(uint8_t status) {
emilmont	10:1e3d126a322b	146	// Write SIE device status register
emilmont	10:1e3d126a322b	147	SIECommand(SIE_CMD_SET_DEVICE_STATUS);
emilmont	10:1e3d126a322b	148	SIEWriteData(status);
emilmont	10:1e3d126a322b	149	}
emilmont	10:1e3d126a322b	150
emilmont	10:1e3d126a322b	151	static uint8_t SIEgetDeviceStatus(void) {
emilmont	10:1e3d126a322b	152	// Read SIE device status register
emilmont	10:1e3d126a322b	153	SIECommand(SIE_CMD_GET_DEVICE_STATUS);
emilmont	10:1e3d126a322b	154	return SIEReadData(SIE_CMD_GET_DEVICE_STATUS);
emilmont	10:1e3d126a322b	155	}
emilmont	10:1e3d126a322b	156
emilmont	10:1e3d126a322b	157	void SIEsetAddress(uint8_t address) {
emilmont	10:1e3d126a322b	158	// Write SIE device address register
emilmont	10:1e3d126a322b	159	SIECommand(SIE_CMD_SET_ADDRESS);
emilmont	10:1e3d126a322b	160	SIEWriteData((address & 0x7f) \| SIE_DSA_DEV_EN);
emilmont	10:1e3d126a322b	161	}
emilmont	10:1e3d126a322b	162
emilmont	10:1e3d126a322b	163	static uint8_t SIEselectEndpoint(uint8_t endpoint) {
emilmont	10:1e3d126a322b	164	// SIE select endpoint command
emilmont	10:1e3d126a322b	165	SIECommand(SIE_CMD_SELECT_ENDPOINT(endpoint));
emilmont	10:1e3d126a322b	166	return SIEReadData(SIE_CMD_SELECT_ENDPOINT(endpoint));
emilmont	10:1e3d126a322b	167	}
emilmont	10:1e3d126a322b	168
emilmont	10:1e3d126a322b	169	static uint8_t SIEclearBuffer(void) {
emilmont	10:1e3d126a322b	170	// SIE clear buffer command
emilmont	10:1e3d126a322b	171	SIECommand(SIE_CMD_CLEAR_BUFFER);
emilmont	10:1e3d126a322b	172	return SIEReadData(SIE_CMD_CLEAR_BUFFER);
emilmont	10:1e3d126a322b	173	}
emilmont	10:1e3d126a322b	174
emilmont	10:1e3d126a322b	175	static void SIEvalidateBuffer(void) {
emilmont	10:1e3d126a322b	176	// SIE validate buffer command
emilmont	10:1e3d126a322b	177	SIECommand(SIE_CMD_VALIDATE_BUFFER);
emilmont	10:1e3d126a322b	178	}
emilmont	10:1e3d126a322b	179
emilmont	10:1e3d126a322b	180	static void SIEsetEndpointStatus(uint8_t endpoint, uint8_t status) {
emilmont	10:1e3d126a322b	181	// SIE set endpoint status command
emilmont	10:1e3d126a322b	182	SIECommand(SIE_CMD_SET_ENDPOINT_STATUS(endpoint));
emilmont	10:1e3d126a322b	183	SIEWriteData(status);
emilmont	10:1e3d126a322b	184	}
emilmont	10:1e3d126a322b	185
emilmont	10:1e3d126a322b	186	static uint16_t SIEgetFrameNumber(void) __attribute__ ((unused));
emilmont	10:1e3d126a322b	187	static uint16_t SIEgetFrameNumber(void) {
emilmont	10:1e3d126a322b	188	// Read current frame number
emilmont	10:1e3d126a322b	189	uint16_t lowByte;
emilmont	10:1e3d126a322b	190	uint16_t highByte;
emilmont	10:1e3d126a322b	191
emilmont	10:1e3d126a322b	192	SIECommand(SIE_CMD_READ_FRAME_NUMBER);
emilmont	10:1e3d126a322b	193	lowByte = SIEReadData(SIE_CMD_READ_FRAME_NUMBER);
emilmont	10:1e3d126a322b	194	highByte = SIEReadData(SIE_CMD_READ_FRAME_NUMBER);
emilmont	10:1e3d126a322b	195
emilmont	10:1e3d126a322b	196	return (highByte << 8) \| lowByte;
emilmont	10:1e3d126a322b	197	}
emilmont	10:1e3d126a322b	198
emilmont	10:1e3d126a322b	199	static void SIEconfigureDevice(void) {
emilmont	10:1e3d126a322b	200	// SIE Configure device command
emilmont	10:1e3d126a322b	201	SIECommand(SIE_CMD_CONFIGURE_DEVICE);
emilmont	10:1e3d126a322b	202	SIEWriteData(SIE_CONF_DEVICE);
emilmont	10:1e3d126a322b	203	}
emilmont	10:1e3d126a322b	204
emilmont	10:1e3d126a322b	205	static void SIEunconfigureDevice(void) {
emilmont	10:1e3d126a322b	206	// SIE Configure device command
emilmont	10:1e3d126a322b	207	SIECommand(SIE_CMD_CONFIGURE_DEVICE);
emilmont	10:1e3d126a322b	208	SIEWriteData(0);
emilmont	10:1e3d126a322b	209	}
emilmont	10:1e3d126a322b	210
emilmont	10:1e3d126a322b	211	static void SIEconnect(void) {
emilmont	10:1e3d126a322b	212	// Connect USB device
emilmont	10:1e3d126a322b	213	uint8_t status = SIEgetDeviceStatus();
emilmont	10:1e3d126a322b	214	SIEsetDeviceStatus(status \| SIE_DS_CON);
emilmont	10:1e3d126a322b	215	}
emilmont	10:1e3d126a322b	216
emilmont	10:1e3d126a322b	217
emilmont	10:1e3d126a322b	218	static void SIEdisconnect(void) {
emilmont	10:1e3d126a322b	219	// Disconnect USB device
emilmont	10:1e3d126a322b	220	uint8_t status = SIEgetDeviceStatus();
emilmont	10:1e3d126a322b	221	SIEsetDeviceStatus(status & ~SIE_DS_CON);
emilmont	10:1e3d126a322b	222	}
emilmont	10:1e3d126a322b	223
emilmont	10:1e3d126a322b	224
emilmont	10:1e3d126a322b	225	static uint8_t selectEndpointClearInterrupt(uint8_t endpoint) {
emilmont	10:1e3d126a322b	226	// Implemented using using EP_INT_CLR.
emilmont	10:1e3d126a322b	227	LPC_USB->EpIntClr = EP(endpoint);
emilmont	10:1e3d126a322b	228	while (!(LPC_USB->DevIntSt & CDFULL));
emilmont	10:1e3d126a322b	229	return (uint8_t)LPC_USB->CmdData;
emilmont	10:1e3d126a322b	230	}
emilmont	10:1e3d126a322b	231
emilmont	10:1e3d126a322b	232
emilmont	10:1e3d126a322b	233	static void enableEndpointEvent(uint8_t endpoint) {
emilmont	10:1e3d126a322b	234	// Enable an endpoint interrupt
emilmont	10:1e3d126a322b	235	LPC_USB->EpIntEn \|= EP(endpoint);
emilmont	10:1e3d126a322b	236	}
emilmont	10:1e3d126a322b	237
emilmont	10:1e3d126a322b	238	static void disableEndpointEvent(uint8_t endpoint) __attribute__ ((unused));
emilmont	10:1e3d126a322b	239	static void disableEndpointEvent(uint8_t endpoint) {
emilmont	10:1e3d126a322b	240	// Disable an endpoint interrupt
emilmont	10:1e3d126a322b	241	LPC_USB->EpIntEn &= ~EP(endpoint);
emilmont	10:1e3d126a322b	242	}
emilmont	10:1e3d126a322b	243
emilmont	10:1e3d126a322b	244	static volatile uint32_t __attribute__((used)) dummyRead;
emilmont	10:1e3d126a322b	245	uint32_t USBHAL::endpointReadcore(uint8_t endpoint, uint8_t *buffer) {
emilmont	10:1e3d126a322b	246	// Read from an OUT endpoint
emilmont	10:1e3d126a322b	247	uint32_t size;
emilmont	10:1e3d126a322b	248	uint32_t i;
emilmont	10:1e3d126a322b	249	uint32_t data = 0;
emilmont	10:1e3d126a322b	250	uint8_t offset;
emilmont	10:1e3d126a322b	251
emilmont	10:1e3d126a322b	252	LPC_USB->Ctrl = LOG_ENDPOINT(endpoint) \| RD_EN;
emilmont	10:1e3d126a322b	253	while (!(LPC_USB->RxPLen & PKT_RDY));
emilmont	10:1e3d126a322b	254
emilmont	10:1e3d126a322b	255	size = LPC_USB->RxPLen & PKT_LNGTH_MASK;
emilmont	10:1e3d126a322b	256
emilmont	10:1e3d126a322b	257	offset = 0;
emilmont	10:1e3d126a322b	258
emilmont	10:1e3d126a322b	259	if (size > 0) {
emilmont	10:1e3d126a322b	260	for (i=0; i<size; i++) {
emilmont	10:1e3d126a322b	261	if (offset==0) {
emilmont	10:1e3d126a322b	262	// Fetch up to four bytes of data as a word
emilmont	10:1e3d126a322b	263	data = LPC_USB->RxData;
emilmont	10:1e3d126a322b	264	}
emilmont	10:1e3d126a322b	265
emilmont	10:1e3d126a322b	266	// extract a byte
emilmont	10:1e3d126a322b	267	*buffer = (data>>offset) & 0xff;
emilmont	10:1e3d126a322b	268	buffer++;
emilmont	10:1e3d126a322b	269
emilmont	10:1e3d126a322b	270	// move on to the next byte
emilmont	10:1e3d126a322b	271	offset = (offset + 8) % 32;
emilmont	10:1e3d126a322b	272	}
emilmont	10:1e3d126a322b	273	} else {
emilmont	10:1e3d126a322b	274	dummyRead = LPC_USB->RxData;
emilmont	10:1e3d126a322b	275	}
emilmont	10:1e3d126a322b	276
emilmont	10:1e3d126a322b	277	LPC_USB->Ctrl = 0;
emilmont	10:1e3d126a322b	278
emilmont	10:1e3d126a322b	279	if ((endpoint >> 1) % 3 \|\| (endpoint >> 1) == 0) {
emilmont	10:1e3d126a322b	280	SIEselectEndpoint(endpoint);
emilmont	10:1e3d126a322b	281	SIEclearBuffer();
emilmont	10:1e3d126a322b	282	}
mbed_official	25:7c72828865f3	283
emilmont	10:1e3d126a322b	284	return size;
emilmont	10:1e3d126a322b	285	}
emilmont	10:1e3d126a322b	286
emilmont	10:1e3d126a322b	287	static void endpointWritecore(uint8_t endpoint, uint8_t *buffer, uint32_t size) {
emilmont	10:1e3d126a322b	288	// Write to an IN endpoint
emilmont	10:1e3d126a322b	289	uint32_t temp, data;
emilmont	10:1e3d126a322b	290	uint8_t offset;
emilmont	10:1e3d126a322b	291
emilmont	10:1e3d126a322b	292	LPC_USB->Ctrl = LOG_ENDPOINT(endpoint) \| WR_EN;
emilmont	10:1e3d126a322b	293
emilmont	10:1e3d126a322b	294	LPC_USB->TxPLen = size;
emilmont	10:1e3d126a322b	295	offset = 0;
emilmont	10:1e3d126a322b	296	data = 0;
emilmont	10:1e3d126a322b	297
emilmont	10:1e3d126a322b	298	if (size>0) {
emilmont	10:1e3d126a322b	299	do {
emilmont	10:1e3d126a322b	300	// Fetch next data byte into a word-sized temporary variable
emilmont	10:1e3d126a322b	301	temp = *buffer++;
emilmont	10:1e3d126a322b	302
emilmont	10:1e3d126a322b	303	// Add to current data word
emilmont	10:1e3d126a322b	304	temp = temp << offset;
emilmont	10:1e3d126a322b	305	data = data \| temp;
emilmont	10:1e3d126a322b	306
emilmont	10:1e3d126a322b	307	// move on to the next byte
emilmont	10:1e3d126a322b	308	offset = (offset + 8) % 32;
emilmont	10:1e3d126a322b	309	size--;
emilmont	10:1e3d126a322b	310
emilmont	10:1e3d126a322b	311	if ((offset==0) \|\| (size==0)) {
emilmont	10:1e3d126a322b	312	// Write the word to the endpoint
emilmont	10:1e3d126a322b	313	LPC_USB->TxData = data;
emilmont	10:1e3d126a322b	314	data = 0;
emilmont	10:1e3d126a322b	315	}
emilmont	10:1e3d126a322b	316	} while (size>0);
emilmont	10:1e3d126a322b	317	} else {
emilmont	10:1e3d126a322b	318	LPC_USB->TxData = 0;
emilmont	10:1e3d126a322b	319	}
emilmont	10:1e3d126a322b	320
emilmont	10:1e3d126a322b	321	// Clear WR_EN to cover zero length packet case
emilmont	10:1e3d126a322b	322	LPC_USB->Ctrl=0;
emilmont	10:1e3d126a322b	323
emilmont	10:1e3d126a322b	324	SIEselectEndpoint(endpoint);
emilmont	10:1e3d126a322b	325	SIEvalidateBuffer();
emilmont	10:1e3d126a322b	326	}
emilmont	10:1e3d126a322b	327
emilmont	10:1e3d126a322b	328	USBHAL::USBHAL(void) {
emilmont	10:1e3d126a322b	329	// Disable IRQ
emilmont	10:1e3d126a322b	330	NVIC_DisableIRQ(USB_IRQn);
mbed_official	25:7c72828865f3	331
emilmont	10:1e3d126a322b	332	// fill in callback array
emilmont	10:1e3d126a322b	333	epCallback[0] = &USBHAL::EP1_OUT_callback;
emilmont	10:1e3d126a322b	334	epCallback[1] = &USBHAL::EP1_IN_callback;
emilmont	10:1e3d126a322b	335	epCallback[2] = &USBHAL::EP2_OUT_callback;
emilmont	10:1e3d126a322b	336	epCallback[3] = &USBHAL::EP2_IN_callback;
emilmont	10:1e3d126a322b	337	epCallback[4] = &USBHAL::EP3_OUT_callback;
emilmont	10:1e3d126a322b	338	epCallback[5] = &USBHAL::EP3_IN_callback;
emilmont	10:1e3d126a322b	339	epCallback[6] = &USBHAL::EP4_OUT_callback;
emilmont	10:1e3d126a322b	340	epCallback[7] = &USBHAL::EP4_IN_callback;
emilmont	10:1e3d126a322b	341	epCallback[8] = &USBHAL::EP5_OUT_callback;
emilmont	10:1e3d126a322b	342	epCallback[9] = &USBHAL::EP5_IN_callback;
emilmont	10:1e3d126a322b	343	epCallback[10] = &USBHAL::EP6_OUT_callback;
emilmont	10:1e3d126a322b	344	epCallback[11] = &USBHAL::EP6_IN_callback;
emilmont	10:1e3d126a322b	345	epCallback[12] = &USBHAL::EP7_OUT_callback;
emilmont	10:1e3d126a322b	346	epCallback[13] = &USBHAL::EP7_IN_callback;
emilmont	10:1e3d126a322b	347	epCallback[14] = &USBHAL::EP8_OUT_callback;
emilmont	10:1e3d126a322b	348	epCallback[15] = &USBHAL::EP8_IN_callback;
emilmont	10:1e3d126a322b	349	epCallback[16] = &USBHAL::EP9_OUT_callback;
emilmont	10:1e3d126a322b	350	epCallback[17] = &USBHAL::EP9_IN_callback;
emilmont	10:1e3d126a322b	351	epCallback[18] = &USBHAL::EP10_OUT_callback;
emilmont	10:1e3d126a322b	352	epCallback[19] = &USBHAL::EP10_IN_callback;
emilmont	10:1e3d126a322b	353	epCallback[20] = &USBHAL::EP11_OUT_callback;
emilmont	10:1e3d126a322b	354	epCallback[21] = &USBHAL::EP11_IN_callback;
emilmont	10:1e3d126a322b	355	epCallback[22] = &USBHAL::EP12_OUT_callback;
emilmont	10:1e3d126a322b	356	epCallback[23] = &USBHAL::EP12_IN_callback;
emilmont	10:1e3d126a322b	357	epCallback[24] = &USBHAL::EP13_OUT_callback;
emilmont	10:1e3d126a322b	358	epCallback[25] = &USBHAL::EP13_IN_callback;
emilmont	10:1e3d126a322b	359	epCallback[26] = &USBHAL::EP14_OUT_callback;
emilmont	10:1e3d126a322b	360	epCallback[27] = &USBHAL::EP14_IN_callback;
emilmont	10:1e3d126a322b	361	epCallback[28] = &USBHAL::EP15_OUT_callback;
emilmont	10:1e3d126a322b	362	epCallback[29] = &USBHAL::EP15_IN_callback;
emilmont	10:1e3d126a322b	363
emilmont	10:1e3d126a322b	364	// Enable power to USB device controller
emilmont	10:1e3d126a322b	365	LPC_SC->PCONP \|= PCUSB;
emilmont	10:1e3d126a322b	366
emilmont	10:1e3d126a322b	367	// Enable USB clocks
emilmont	12:6030a12b6c62	368	LPC_USB->USBClkCtrl \|= DEV_CLK_EN \| AHB_CLK_EN \| PORT_CLK_EN;
emilmont	12:6030a12b6c62	369	while ((LPC_USB->USBClkSt & (DEV_CLK_EN \| AHB_CLK_EN \| PORT_CLK_EN)) != (DEV_CLK_ON \| AHB_CLK_ON \| PORT_CLK_EN));
mbed_official	25:7c72828865f3	370
emilmont	12:6030a12b6c62	371	// Select port USB2
emilmont	12:6030a12b6c62	372	LPC_USB->StCtrl \|= 3;
emilmont	10:1e3d126a322b	373
emilmont	12:6030a12b6c62	374
emilmont	12:6030a12b6c62	375	// Configure pin P0.31 to be USB2
emilmont	12:6030a12b6c62	376	LPC_IOCON->P0_31 &= ~0x07;
emilmont	12:6030a12b6c62	377	LPC_IOCON->P0_31 \|= 0x01;
mbed_official	25:7c72828865f3	378
emilmont	10:1e3d126a322b	379	// Disconnect USB device
emilmont	10:1e3d126a322b	380	SIEdisconnect();
emilmont	10:1e3d126a322b	381
emilmont	12:6030a12b6c62	382	// Configure pin P0.14 to be Connect
emilmont	12:6030a12b6c62	383	LPC_IOCON->P0_14 &= ~0x07;
mbed_official	25:7c72828865f3	384	LPC_IOCON->P0_14 \|= 0x03;
emilmont	10:1e3d126a322b	385
emilmont	10:1e3d126a322b	386	// Connect must be low for at least 2.5uS
emilmont	10:1e3d126a322b	387	wait(0.3);
emilmont	10:1e3d126a322b	388
emilmont	10:1e3d126a322b	389	// Set the maximum packet size for the control endpoints
emilmont	10:1e3d126a322b	390	realiseEndpoint(EP0IN, MAX_PACKET_SIZE_EP0, 0);
emilmont	10:1e3d126a322b	391	realiseEndpoint(EP0OUT, MAX_PACKET_SIZE_EP0, 0);
emilmont	10:1e3d126a322b	392
emilmont	10:1e3d126a322b	393	// Attach IRQ
emilmont	10:1e3d126a322b	394	instance = this;
emilmont	10:1e3d126a322b	395	NVIC_SetVector(USB_IRQn, (uint32_t)&_usbisr);
emilmont	10:1e3d126a322b	396
emilmont	10:1e3d126a322b	397	// Enable interrupts for device events and EP0
emilmont	10:1e3d126a322b	398	LPC_USB->DevIntEn = EP_SLOW \| DEV_STAT \| FRAME;
emilmont	10:1e3d126a322b	399	enableEndpointEvent(EP0IN);
emilmont	10:1e3d126a322b	400	enableEndpointEvent(EP0OUT);
emilmont	10:1e3d126a322b	401	}
emilmont	10:1e3d126a322b	402
emilmont	10:1e3d126a322b	403	USBHAL::~USBHAL(void) {
emilmont	10:1e3d126a322b	404	// Ensure device disconnected
emilmont	10:1e3d126a322b	405	SIEdisconnect();
emilmont	10:1e3d126a322b	406	// Disable USB interrupts
emilmont	10:1e3d126a322b	407	NVIC_DisableIRQ(USB_IRQn);
emilmont	10:1e3d126a322b	408	}
emilmont	10:1e3d126a322b	409
emilmont	10:1e3d126a322b	410	void USBHAL::connect(void) {
emilmont	10:1e3d126a322b	411	NVIC_EnableIRQ(USB_IRQn);
emilmont	10:1e3d126a322b	412	// Connect USB device
emilmont	10:1e3d126a322b	413	SIEconnect();
emilmont	10:1e3d126a322b	414	}
emilmont	10:1e3d126a322b	415
emilmont	10:1e3d126a322b	416	void USBHAL::disconnect(void) {
emilmont	10:1e3d126a322b	417	NVIC_DisableIRQ(USB_IRQn);
emilmont	10:1e3d126a322b	418	// Disconnect USB device
emilmont	10:1e3d126a322b	419	SIEdisconnect();
emilmont	10:1e3d126a322b	420	}
emilmont	10:1e3d126a322b	421
emilmont	10:1e3d126a322b	422	void USBHAL::configureDevice(void) {
emilmont	10:1e3d126a322b	423	SIEconfigureDevice();
emilmont	10:1e3d126a322b	424	}
emilmont	10:1e3d126a322b	425
emilmont	10:1e3d126a322b	426	void USBHAL::unconfigureDevice(void) {
emilmont	10:1e3d126a322b	427	SIEunconfigureDevice();
emilmont	10:1e3d126a322b	428	}
emilmont	10:1e3d126a322b	429
emilmont	10:1e3d126a322b	430	void USBHAL::setAddress(uint8_t address) {
emilmont	10:1e3d126a322b	431	SIEsetAddress(address);
emilmont	10:1e3d126a322b	432	}
emilmont	10:1e3d126a322b	433
emilmont	10:1e3d126a322b	434	void USBHAL::EP0setup(uint8_t *buffer) {
emilmont	10:1e3d126a322b	435	endpointReadcore(EP0OUT, buffer);
emilmont	10:1e3d126a322b	436	}
emilmont	10:1e3d126a322b	437
emilmont	10:1e3d126a322b	438	void USBHAL::EP0read(void) {
emilmont	10:1e3d126a322b	439	// Not required
emilmont	10:1e3d126a322b	440	}
emilmont	10:1e3d126a322b	441
emilmont	10:1e3d126a322b	442	void USBHAL::EP0readStage(void) {
emilmont	10:1e3d126a322b	443	// Not required
emilmont	10:1e3d126a322b	444	}
emilmont	10:1e3d126a322b	445
emilmont	10:1e3d126a322b	446	uint32_t USBHAL::EP0getReadResult(uint8_t *buffer) {
emilmont	10:1e3d126a322b	447	return endpointReadcore(EP0OUT, buffer);
emilmont	10:1e3d126a322b	448	}
emilmont	10:1e3d126a322b	449
emilmont	10:1e3d126a322b	450	void USBHAL::EP0write(uint8_t *buffer, uint32_t size) {
emilmont	10:1e3d126a322b	451	endpointWritecore(EP0IN, buffer, size);
emilmont	10:1e3d126a322b	452	}
emilmont	10:1e3d126a322b	453
emilmont	10:1e3d126a322b	454	void USBHAL::EP0getWriteResult(void) {
emilmont	10:1e3d126a322b	455	// Not required
emilmont	10:1e3d126a322b	456	}
emilmont	10:1e3d126a322b	457
emilmont	10:1e3d126a322b	458	void USBHAL::EP0stall(void) {
emilmont	10:1e3d126a322b	459	// This will stall both control endpoints
emilmont	10:1e3d126a322b	460	stallEndpoint(EP0OUT);
emilmont	10:1e3d126a322b	461	}
emilmont	10:1e3d126a322b	462
emilmont	10:1e3d126a322b	463	EP_STATUS USBHAL::endpointRead(uint8_t endpoint, uint32_t maximumSize) {
emilmont	10:1e3d126a322b	464	return EP_PENDING;
emilmont	10:1e3d126a322b	465	}
emilmont	10:1e3d126a322b	466
emilmont	10:1e3d126a322b	467	EP_STATUS USBHAL::endpointReadResult(uint8_t endpoint, uint8_t * buffer, uint32_t *bytesRead) {
emilmont	10:1e3d126a322b	468
emilmont	10:1e3d126a322b	469	//for isochronous endpoint, we don't wait an interrupt
emilmont	10:1e3d126a322b	470	if ((endpoint >> 1) % 3 \|\| (endpoint >> 1) == 0) {
emilmont	10:1e3d126a322b	471	if (!(epComplete & EP(endpoint)))
emilmont	10:1e3d126a322b	472	return EP_PENDING;
emilmont	10:1e3d126a322b	473	}
mbed_official	25:7c72828865f3	474
emilmont	10:1e3d126a322b	475	*bytesRead = endpointReadcore(endpoint, buffer);
emilmont	10:1e3d126a322b	476	epComplete &= ~EP(endpoint);
emilmont	10:1e3d126a322b	477	return EP_COMPLETED;
emilmont	10:1e3d126a322b	478	}
emilmont	10:1e3d126a322b	479
emilmont	10:1e3d126a322b	480	EP_STATUS USBHAL::endpointWrite(uint8_t endpoint, uint8_t *data, uint32_t size) {
emilmont	10:1e3d126a322b	481	if (getEndpointStallState(endpoint)) {
emilmont	10:1e3d126a322b	482	return EP_STALLED;
emilmont	10:1e3d126a322b	483	}
emilmont	10:1e3d126a322b	484
emilmont	10:1e3d126a322b	485	epComplete &= ~EP(endpoint);
emilmont	10:1e3d126a322b	486
emilmont	10:1e3d126a322b	487	endpointWritecore(endpoint, data, size);
emilmont	10:1e3d126a322b	488	return EP_PENDING;
emilmont	10:1e3d126a322b	489	}
emilmont	10:1e3d126a322b	490
emilmont	10:1e3d126a322b	491	EP_STATUS USBHAL::endpointWriteResult(uint8_t endpoint) {
emilmont	10:1e3d126a322b	492	if (epComplete & EP(endpoint)) {
emilmont	10:1e3d126a322b	493	epComplete &= ~EP(endpoint);
emilmont	10:1e3d126a322b	494	return EP_COMPLETED;
emilmont	10:1e3d126a322b	495	}
emilmont	10:1e3d126a322b	496
emilmont	10:1e3d126a322b	497	return EP_PENDING;
emilmont	10:1e3d126a322b	498	}
emilmont	10:1e3d126a322b	499
emilmont	10:1e3d126a322b	500	bool USBHAL::realiseEndpoint(uint8_t endpoint, uint32_t maxPacket, uint32_t flags) {
emilmont	10:1e3d126a322b	501	// Realise an endpoint
emilmont	10:1e3d126a322b	502	LPC_USB->DevIntClr = EP_RLZED;
emilmont	10:1e3d126a322b	503	LPC_USB->ReEp \|= EP(endpoint);
emilmont	10:1e3d126a322b	504	LPC_USB->EpInd = endpoint;
emilmont	10:1e3d126a322b	505	LPC_USB->MaxPSize = maxPacket;
emilmont	10:1e3d126a322b	506
emilmont	10:1e3d126a322b	507	while (!(LPC_USB->DevIntSt & EP_RLZED));
emilmont	10:1e3d126a322b	508	LPC_USB->DevIntClr = EP_RLZED;
emilmont	10:1e3d126a322b	509
emilmont	10:1e3d126a322b	510	// Clear stall state
emilmont	10:1e3d126a322b	511	endpointStallState &= ~EP(endpoint);
emilmont	10:1e3d126a322b	512
emilmont	10:1e3d126a322b	513	enableEndpointEvent(endpoint);
emilmont	10:1e3d126a322b	514	return true;
emilmont	10:1e3d126a322b	515	}
emilmont	10:1e3d126a322b	516
emilmont	10:1e3d126a322b	517	void USBHAL::stallEndpoint(uint8_t endpoint) {
emilmont	10:1e3d126a322b	518	// Stall an endpoint
emilmont	10:1e3d126a322b	519	if ( (endpoint==EP0IN) \|\| (endpoint==EP0OUT) ) {
emilmont	10:1e3d126a322b	520	// Conditionally stall both control endpoints
emilmont	10:1e3d126a322b	521	SIEsetEndpointStatus(EP0OUT, SIE_SES_CND_ST);
emilmont	10:1e3d126a322b	522	} else {
emilmont	10:1e3d126a322b	523	SIEsetEndpointStatus(endpoint, SIE_SES_ST);
emilmont	10:1e3d126a322b	524
emilmont	10:1e3d126a322b	525	// Update stall state
emilmont	10:1e3d126a322b	526	endpointStallState \|= EP(endpoint);
emilmont	10:1e3d126a322b	527	}
emilmont	10:1e3d126a322b	528	}
emilmont	10:1e3d126a322b	529
emilmont	10:1e3d126a322b	530	void USBHAL::unstallEndpoint(uint8_t endpoint) {
emilmont	10:1e3d126a322b	531	// Unstall an endpoint. The endpoint will also be reinitialised
emilmont	10:1e3d126a322b	532	SIEsetEndpointStatus(endpoint, 0);
emilmont	10:1e3d126a322b	533
emilmont	10:1e3d126a322b	534	// Update stall state
emilmont	10:1e3d126a322b	535	endpointStallState &= ~EP(endpoint);
emilmont	10:1e3d126a322b	536	}
emilmont	10:1e3d126a322b	537
emilmont	10:1e3d126a322b	538	bool USBHAL::getEndpointStallState(uint8_t endpoint) {
emilmont	10:1e3d126a322b	539	// Returns true if endpoint stalled
emilmont	10:1e3d126a322b	540	return endpointStallState & EP(endpoint);
emilmont	10:1e3d126a322b	541	}
emilmont	10:1e3d126a322b	542
emilmont	10:1e3d126a322b	543	void USBHAL::remoteWakeup(void) {
emilmont	10:1e3d126a322b	544	// Remote wakeup
emilmont	10:1e3d126a322b	545	uint8_t status;
emilmont	10:1e3d126a322b	546
emilmont	10:1e3d126a322b	547	// Enable USB clocks
emilmont	10:1e3d126a322b	548	LPC_USB->USBClkCtrl \|= DEV_CLK_EN \| AHB_CLK_EN;
emilmont	10:1e3d126a322b	549	while (LPC_USB->USBClkSt != (DEV_CLK_ON \| AHB_CLK_ON));
emilmont	10:1e3d126a322b	550
emilmont	10:1e3d126a322b	551	status = SIEgetDeviceStatus();
emilmont	10:1e3d126a322b	552	SIEsetDeviceStatus(status & ~SIE_DS_SUS);
emilmont	10:1e3d126a322b	553	}
emilmont	10:1e3d126a322b	554
emilmont	10:1e3d126a322b	555	void USBHAL::_usbisr(void) {
emilmont	10:1e3d126a322b	556	instance->usbisr();
emilmont	10:1e3d126a322b	557	}
emilmont	10:1e3d126a322b	558
emilmont	10:1e3d126a322b	559
emilmont	10:1e3d126a322b	560	void USBHAL::usbisr(void) {
emilmont	10:1e3d126a322b	561	uint8_t devStat;
emilmont	10:1e3d126a322b	562
emilmont	10:1e3d126a322b	563	if (LPC_USB->DevIntSt & FRAME) {
emilmont	10:1e3d126a322b	564	// Start of frame event
emilmont	10:1e3d126a322b	565	SOF(SIEgetFrameNumber());
emilmont	10:1e3d126a322b	566	// Clear interrupt status flag
emilmont	10:1e3d126a322b	567	LPC_USB->DevIntClr = FRAME;
emilmont	10:1e3d126a322b	568	}
emilmont	10:1e3d126a322b	569
emilmont	10:1e3d126a322b	570	if (LPC_USB->DevIntSt & DEV_STAT) {
emilmont	10:1e3d126a322b	571	// Device Status interrupt
emilmont	10:1e3d126a322b	572	// Must clear the interrupt status flag before reading the device status from the SIE
emilmont	10:1e3d126a322b	573	LPC_USB->DevIntClr = DEV_STAT;
emilmont	10:1e3d126a322b	574
emilmont	10:1e3d126a322b	575	// Read device status from SIE
emilmont	10:1e3d126a322b	576	devStat = SIEgetDeviceStatus();
emilmont	10:1e3d126a322b	577	//printf("devStat: %d\r\n", devStat);
emilmont	10:1e3d126a322b	578
emilmont	10:1e3d126a322b	579	if (devStat & SIE_DS_SUS_CH) {
emilmont	10:1e3d126a322b	580	// Suspend status changed
emilmont	10:1e3d126a322b	581	if((devStat & SIE_DS_SUS) != 0) {
emilmont	10:1e3d126a322b	582	suspendStateChanged(0);
emilmont	10:1e3d126a322b	583	}
emilmont	10:1e3d126a322b	584	}
emilmont	10:1e3d126a322b	585
emilmont	10:1e3d126a322b	586	if (devStat & SIE_DS_RST) {
emilmont	10:1e3d126a322b	587	// Bus reset
emilmont	10:1e3d126a322b	588	if((devStat & SIE_DS_SUS) == 0) {
emilmont	10:1e3d126a322b	589	suspendStateChanged(1);
emilmont	10:1e3d126a322b	590	}
emilmont	10:1e3d126a322b	591	busReset();
emilmont	10:1e3d126a322b	592	}
emilmont	10:1e3d126a322b	593	}
emilmont	10:1e3d126a322b	594
emilmont	10:1e3d126a322b	595	if (LPC_USB->DevIntSt & EP_SLOW) {
emilmont	10:1e3d126a322b	596	// (Slow) Endpoint Interrupt
emilmont	10:1e3d126a322b	597
emilmont	10:1e3d126a322b	598	// Process each endpoint interrupt
emilmont	10:1e3d126a322b	599	if (LPC_USB->EpIntSt & EP(EP0OUT)) {
emilmont	10:1e3d126a322b	600	if (selectEndpointClearInterrupt(EP0OUT) & SIE_SE_STP) {
emilmont	10:1e3d126a322b	601	// this is a setup packet
emilmont	10:1e3d126a322b	602	EP0setupCallback();
emilmont	10:1e3d126a322b	603	} else {
emilmont	10:1e3d126a322b	604	EP0out();
emilmont	10:1e3d126a322b	605	}
emilmont	10:1e3d126a322b	606	LPC_USB->DevIntClr = EP_SLOW;
emilmont	10:1e3d126a322b	607	}
emilmont	10:1e3d126a322b	608
emilmont	10:1e3d126a322b	609	if (LPC_USB->EpIntSt & EP(EP0IN)) {
emilmont	10:1e3d126a322b	610	selectEndpointClearInterrupt(EP0IN);
emilmont	10:1e3d126a322b	611	LPC_USB->DevIntClr = EP_SLOW;
emilmont	10:1e3d126a322b	612	EP0in();
emilmont	10:1e3d126a322b	613	}
mbed_official	25:7c72828865f3	614
emilmont	10:1e3d126a322b	615	for (uint8_t num = 2; num < 16*2; num++) {
emilmont	10:1e3d126a322b	616	if (LPC_USB->EpIntSt & EP(num)) {
emilmont	10:1e3d126a322b	617	selectEndpointClearInterrupt(num);
emilmont	10:1e3d126a322b	618	epComplete \|= EP(num);
emilmont	10:1e3d126a322b	619	LPC_USB->DevIntClr = EP_SLOW;
emilmont	10:1e3d126a322b	620	if ((instance->*(epCallback[num - 2]))()) {
emilmont	10:1e3d126a322b	621	epComplete &= ~EP(num);
emilmont	10:1e3d126a322b	622	}
emilmont	10:1e3d126a322b	623	}
emilmont	10:1e3d126a322b	624	}
emilmont	10:1e3d126a322b	625	}
emilmont	10:1e3d126a322b	626	}
emilmont	10:1e3d126a322b	627
emilmont	10:1e3d126a322b	628	#endif

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Type:	Program
Created:	22 Apr 2015
Imports:	2
Forks:	0
Commits:	52
Dependents:	0
Dependencies:	0
Followers:	1

USBDevice/USBHAL_LPC40.cpp@51:a3c50882f2c5, 2015-04-20 (annotated)

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