USBDevice - updsted the USB to persuade it to build for the D…

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updsted the USB to persuade it to build for the Dragonfly platfom

targets/TARGET_Silicon_Labs/src/em_usbd.c@71:53949e6131f6, 2017-07-27 (annotated)

Committer:: Kojto
Date:: Thu Jul 27 12:14:04 2017 +0100
Revision:: 71:53949e6131f6

Update libraries



Fixes the previous commmit, as some devices were not copied. USBDevice contains

now targets directory with all targets implementations

Who changed what in which revision?

User	Revision	Line number	New contents of line
Kojto	71:53949e6131f6	1	/************************************************************************//
Kojto	71:53949e6131f6	2	* @file em_usbd.c
Kojto	71:53949e6131f6	3	* @brief USB protocol stack library, device API.
Kojto	71:53949e6131f6	4	* @version 3.20.14
Kojto	71:53949e6131f6	5	******************************************************************************
Kojto	71:53949e6131f6	6	* @section License
Kojto	71:53949e6131f6	7	* <b>(C) Copyright 2014 Silicon Labs, http://www.silabs.com</b>
Kojto	71:53949e6131f6	8	*******************************************************************************
Kojto	71:53949e6131f6	9	*
Kojto	71:53949e6131f6	10	* Licensed under the Apache License, Version 2.0 (the "License");
Kojto	71:53949e6131f6	11	* you may not use this file except in compliance with the License.
Kojto	71:53949e6131f6	12	* You may obtain a copy of the License at
Kojto	71:53949e6131f6	13	*
Kojto	71:53949e6131f6	14	* http://www.apache.org/licenses/LICENSE-2.0
Kojto	71:53949e6131f6	15	*
Kojto	71:53949e6131f6	16	* Unless required by applicable law or agreed to in writing, software
Kojto	71:53949e6131f6	17	* distributed under the License is distributed on an "AS IS" BASIS,
Kojto	71:53949e6131f6	18	* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
Kojto	71:53949e6131f6	19	* See the License for the specific language governing permissions and
Kojto	71:53949e6131f6	20	* limitations under the License.
Kojto	71:53949e6131f6	21	*
Kojto	71:53949e6131f6	22	******************************************************************************/
Kojto	71:53949e6131f6	23
Kojto	71:53949e6131f6	24	#include "em_device.h"
Kojto	71:53949e6131f6	25	#if defined( USB_PRESENT ) && ( USB_COUNT == 1 )
Kojto	71:53949e6131f6	26	#include "em_usb.h"
Kojto	71:53949e6131f6	27	#if defined( USB_DEVICE )
Kojto	71:53949e6131f6	28
Kojto	71:53949e6131f6	29	#include "em_cmu.h"
Kojto	71:53949e6131f6	30	#include "em_usbtypes.h"
Kojto	71:53949e6131f6	31	#include "em_usbhal.h"
Kojto	71:53949e6131f6	32	#include "em_usbd.h"
Kojto	71:53949e6131f6	33
Kojto	71:53949e6131f6	34	/** @cond DO_NOT_INCLUDE_WITH_DOXYGEN */
Kojto	71:53949e6131f6	35
Kojto	71:53949e6131f6	36	static USBD_Device_TypeDef device;
Kojto	71:53949e6131f6	37	USBD_Device_TypeDef *dev = &device;
Kojto	71:53949e6131f6	38
Kojto	71:53949e6131f6	39	static uint32_t totalRxFifoSize = 0, totalTxFifoSize = 0;
Kojto	71:53949e6131f6	40	static int numEps = 0;
Kojto	71:53949e6131f6	41	static int txFifoNum = 1;
Kojto	71:53949e6131f6	42
Kojto	71:53949e6131f6	43	static void USBD_ResetEndpoints(void);
Kojto	71:53949e6131f6	44	extern USB_Status_TypeDef USBDHAL_ReconfigureFifos( uint32_t totalRxFifoSize,
Kojto	71:53949e6131f6	45	uint32_t totalTxFifoSize );
Kojto	71:53949e6131f6	46	#ifndef __MBED__
Kojto	71:53949e6131f6	47	static const char *stateNames[] =
Kojto	71:53949e6131f6	48	{
Kojto	71:53949e6131f6	49	[ USBD_STATE_NONE ] = "NONE ",
Kojto	71:53949e6131f6	50	[ USBD_STATE_ATTACHED ] = "ATTACHED ",
Kojto	71:53949e6131f6	51	[ USBD_STATE_POWERED ] = "POWERED ",
Kojto	71:53949e6131f6	52	[ USBD_STATE_DEFAULT ] = "DEFAULT ",
Kojto	71:53949e6131f6	53	[ USBD_STATE_ADDRESSED ] = "ADDRESSED ",
Kojto	71:53949e6131f6	54	[ USBD_STATE_CONFIGURED ] = "CONFIGURED",
Kojto	71:53949e6131f6	55	[ USBD_STATE_SUSPENDED ] = "SUSPENDED ",
Kojto	71:53949e6131f6	56	[ USBD_STATE_LASTMARKER ] = "UNDEFINED "
Kojto	71:53949e6131f6	57	};
Kojto	71:53949e6131f6	58	#endif
Kojto	71:53949e6131f6	59
Kojto	71:53949e6131f6	60	/** @endcond */
Kojto	71:53949e6131f6	61
Kojto	71:53949e6131f6	62	/*************************************************************************//
Kojto	71:53949e6131f6	63	* @brief
Kojto	71:53949e6131f6	64	* Abort all pending transfers.
Kojto	71:53949e6131f6	65	*
Kojto	71:53949e6131f6	66	* @details
Kojto	71:53949e6131f6	67	* Aborts transfers for all endpoints currently in use. Pending
Kojto	71:53949e6131f6	68	* transfers on the default endpoint (EP0) are not aborted.
Kojto	71:53949e6131f6	69	******************************************************************************/
Kojto	71:53949e6131f6	70	void USBD_AbortAllTransfers( void )
Kojto	71:53949e6131f6	71	{
Kojto	71:53949e6131f6	72	INT_Disable();
Kojto	71:53949e6131f6	73	USBDHAL_AbortAllTransfers( USB_STATUS_EP_ABORTED );
Kojto	71:53949e6131f6	74	INT_Enable();
Kojto	71:53949e6131f6	75	}
Kojto	71:53949e6131f6	76
Kojto	71:53949e6131f6	77	/*************************************************************************//
Kojto	71:53949e6131f6	78	* @brief
Kojto	71:53949e6131f6	79	* Abort a pending transfer on a specific endpoint.
Kojto	71:53949e6131f6	80	*
Kojto	71:53949e6131f6	81	* @param[in] epAddr
Kojto	71:53949e6131f6	82	* The address of the endpoint to abort.
Kojto	71:53949e6131f6	83	******************************************************************************/
Kojto	71:53949e6131f6	84	int USBD_AbortTransfer( int epAddr )
Kojto	71:53949e6131f6	85	{
Kojto	71:53949e6131f6	86	USB_XferCompleteCb_TypeDef callback;
Kojto	71:53949e6131f6	87	USBD_Ep_TypeDef *ep = USBD_GetEpFromAddr( epAddr );
Kojto	71:53949e6131f6	88
Kojto	71:53949e6131f6	89	if ( ep == NULL )
Kojto	71:53949e6131f6	90	{
Kojto	71:53949e6131f6	91	DEBUG_USB_API_PUTS( "\nUSBD_AbortTransfer(), Illegal endpoint" );
Kojto	71:53949e6131f6	92	EFM_ASSERT( false );
Kojto	71:53949e6131f6	93	return USB_STATUS_ILLEGAL;
Kojto	71:53949e6131f6	94	}
Kojto	71:53949e6131f6	95
Kojto	71:53949e6131f6	96	if ( ep->num == 0 )
Kojto	71:53949e6131f6	97	{
Kojto	71:53949e6131f6	98	DEBUG_USB_API_PUTS( "\nUSBD_AbortTransfer(), Illegal endpoint" );
Kojto	71:53949e6131f6	99	EFM_ASSERT( false );
Kojto	71:53949e6131f6	100	return USB_STATUS_ILLEGAL;
Kojto	71:53949e6131f6	101	}
Kojto	71:53949e6131f6	102
Kojto	71:53949e6131f6	103	INT_Disable();
Kojto	71:53949e6131f6	104	if ( ep->state == D_EP_IDLE )
Kojto	71:53949e6131f6	105	{
Kojto	71:53949e6131f6	106	INT_Enable();
Kojto	71:53949e6131f6	107	return USB_STATUS_OK;
Kojto	71:53949e6131f6	108	}
Kojto	71:53949e6131f6	109
Kojto	71:53949e6131f6	110	USBD_AbortEp( ep );
Kojto	71:53949e6131f6	111
Kojto	71:53949e6131f6	112	ep->state = D_EP_IDLE;
Kojto	71:53949e6131f6	113	if ( ep->xferCompleteCb )
Kojto	71:53949e6131f6	114	{
Kojto	71:53949e6131f6	115	callback = ep->xferCompleteCb;
Kojto	71:53949e6131f6	116	ep->xferCompleteCb = NULL;
Kojto	71:53949e6131f6	117
Kojto	71:53949e6131f6	118	if ( ( dev->lastState == USBD_STATE_CONFIGURED ) &&
Kojto	71:53949e6131f6	119	( dev->state == USBD_STATE_ADDRESSED ) )
Kojto	71:53949e6131f6	120	{
Kojto	71:53949e6131f6	121	USBDHAL_DeactivateEp( ep );
Kojto	71:53949e6131f6	122	}
Kojto	71:53949e6131f6	123
Kojto	71:53949e6131f6	124	DEBUG_TRACE_ABORT( USB_STATUS_EP_ABORTED );
Kojto	71:53949e6131f6	125	callback( USB_STATUS_EP_ABORTED, ep->xferred, ep->remaining );
Kojto	71:53949e6131f6	126	}
Kojto	71:53949e6131f6	127
Kojto	71:53949e6131f6	128	INT_Enable();
Kojto	71:53949e6131f6	129	return USB_STATUS_OK;
Kojto	71:53949e6131f6	130	}
Kojto	71:53949e6131f6	131
Kojto	71:53949e6131f6	132	/*************************************************************************//
Kojto	71:53949e6131f6	133	* @brief
Kojto	71:53949e6131f6	134	* Start USB device operation.
Kojto	71:53949e6131f6	135	*
Kojto	71:53949e6131f6	136	* @details
Kojto	71:53949e6131f6	137	* Device operation is started by connecting a pullup resistor on the
Kojto	71:53949e6131f6	138	* appropriate USB data line.
Kojto	71:53949e6131f6	139	******************************************************************************/
Kojto	71:53949e6131f6	140	void USBD_Connect( void )
Kojto	71:53949e6131f6	141	{
Kojto	71:53949e6131f6	142	INT_Disable();
Kojto	71:53949e6131f6	143	USBDHAL_Connect();
Kojto	71:53949e6131f6	144	INT_Enable();
Kojto	71:53949e6131f6	145	}
Kojto	71:53949e6131f6	146
Kojto	71:53949e6131f6	147	/*************************************************************************//
Kojto	71:53949e6131f6	148	* @brief
Kojto	71:53949e6131f6	149	* Stop USB device operation.
Kojto	71:53949e6131f6	150	*
Kojto	71:53949e6131f6	151	* @details
Kojto	71:53949e6131f6	152	* Device operation is stopped by disconnecting the pullup resistor from the
Kojto	71:53949e6131f6	153	* appropriate USB data line. Often referred to as a "soft" disconnect.
Kojto	71:53949e6131f6	154	******************************************************************************/
Kojto	71:53949e6131f6	155	void USBD_Disconnect( void )
Kojto	71:53949e6131f6	156	{
Kojto	71:53949e6131f6	157	INT_Disable();
Kojto	71:53949e6131f6	158	USBDHAL_Disconnect();
Kojto	71:53949e6131f6	159	INT_Enable();
Kojto	71:53949e6131f6	160	}
Kojto	71:53949e6131f6	161
Kojto	71:53949e6131f6	162	/*************************************************************************//
Kojto	71:53949e6131f6	163	* @brief
Kojto	71:53949e6131f6	164	* Check if an endpoint is busy doing a transfer.
Kojto	71:53949e6131f6	165	*
Kojto	71:53949e6131f6	166	* @param[in] epAddr
Kojto	71:53949e6131f6	167	* The address of the endpoint to check.
Kojto	71:53949e6131f6	168	*
Kojto	71:53949e6131f6	169	* @return
Kojto	71:53949e6131f6	170	* True if endpoint is busy, false otherwise.
Kojto	71:53949e6131f6	171	******************************************************************************/
Kojto	71:53949e6131f6	172	bool USBD_EpIsBusy( int epAddr )
Kojto	71:53949e6131f6	173	{
Kojto	71:53949e6131f6	174	USBD_Ep_TypeDef *ep = USBD_GetEpFromAddr( epAddr );
Kojto	71:53949e6131f6	175
Kojto	71:53949e6131f6	176	if ( ep == NULL )
Kojto	71:53949e6131f6	177	{
Kojto	71:53949e6131f6	178	DEBUG_USB_API_PUTS( "\nUSBD_EpIsBusy(), Illegal endpoint" );
Kojto	71:53949e6131f6	179	EFM_ASSERT( false );
Kojto	71:53949e6131f6	180	return USB_STATUS_ILLEGAL;
Kojto	71:53949e6131f6	181	}
Kojto	71:53949e6131f6	182
Kojto	71:53949e6131f6	183	if ( ep->state == D_EP_IDLE )
Kojto	71:53949e6131f6	184	return false;
Kojto	71:53949e6131f6	185
Kojto	71:53949e6131f6	186	return true;
Kojto	71:53949e6131f6	187	}
Kojto	71:53949e6131f6	188
Kojto	71:53949e6131f6	189	/*************************************************************************//
Kojto	71:53949e6131f6	190	* @brief
Kojto	71:53949e6131f6	191	* Get current USB device state.
Kojto	71:53949e6131f6	192	*
Kojto	71:53949e6131f6	193	* @return
Kojto	71:53949e6131f6	194	* Device USB state. See @ref USBD_State_TypeDef.
Kojto	71:53949e6131f6	195	******************************************************************************/
Kojto	71:53949e6131f6	196	USBD_State_TypeDef USBD_GetUsbState( void )
Kojto	71:53949e6131f6	197	{
Kojto	71:53949e6131f6	198	return dev->state;
Kojto	71:53949e6131f6	199	}
Kojto	71:53949e6131f6	200
Kojto	71:53949e6131f6	201	/*************************************************************************//
Kojto	71:53949e6131f6	202	* @brief
Kojto	71:53949e6131f6	203	* Get a string naming a device USB state.
Kojto	71:53949e6131f6	204	*
Kojto	71:53949e6131f6	205	* @param[in] state
Kojto	71:53949e6131f6	206	* Device USB state. See @ref USBD_State_TypeDef.
Kojto	71:53949e6131f6	207	*
Kojto	71:53949e6131f6	208	* @return
Kojto	71:53949e6131f6	209	* State name string pointer.
Kojto	71:53949e6131f6	210	******************************************************************************/
Kojto	71:53949e6131f6	211	const char *USBD_GetUsbStateName( USBD_State_TypeDef state )
Kojto	71:53949e6131f6	212	{
Kojto	71:53949e6131f6	213	if ( state > USBD_STATE_LASTMARKER )
Kojto	71:53949e6131f6	214	state = USBD_STATE_LASTMARKER;
Kojto	71:53949e6131f6	215
Kojto	71:53949e6131f6	216	#ifndef __MBED__
Kojto	71:53949e6131f6	217	return stateNames[ state ];
Kojto	71:53949e6131f6	218	#else
Kojto	71:53949e6131f6	219	return NULL;
Kojto	71:53949e6131f6	220	#endif
Kojto	71:53949e6131f6	221	}
Kojto	71:53949e6131f6	222
Kojto	71:53949e6131f6	223	/*************************************************************************//
Kojto	71:53949e6131f6	224	* @brief
Kojto	71:53949e6131f6	225	* Initializes USB device hardware and internal protocol stack data structures,
Kojto	71:53949e6131f6	226	* then connects the data-line (D+ or D-) pullup resistor to signal host that
Kojto	71:53949e6131f6	227	* enumeration can begin.
Kojto	71:53949e6131f6	228	*
Kojto	71:53949e6131f6	229	* @note
Kojto	71:53949e6131f6	230	* You may later use @ref USBD_Disconnect() and @ref USBD_Connect() to force
Kojto	71:53949e6131f6	231	* reenumeration.
Kojto	71:53949e6131f6	232	*
Kojto	71:53949e6131f6	233	* @param[in] p
Kojto	71:53949e6131f6	234	* Pointer to device initialization struct. See @ref USBD_Init_TypeDef.
Kojto	71:53949e6131f6	235	*
Kojto	71:53949e6131f6	236	* @return
Kojto	71:53949e6131f6	237	* @ref USB_STATUS_OK on success, else an appropriate error code.
Kojto	71:53949e6131f6	238	******************************************************************************/
Kojto	71:53949e6131f6	239	int USBD_Init( const USBD_Init_TypeDef *p )
Kojto	71:53949e6131f6	240	{
Kojto	71:53949e6131f6	241	USBD_Ep_TypeDef *ep;
Kojto	71:53949e6131f6	242
Kojto	71:53949e6131f6	243	#if !defined( USB_CORECLK_HFRCO ) \|\| !defined( CMU_OSCENCMD_USHFRCOEN )
Kojto	71:53949e6131f6	244	/* Devices supporting crystal-less USB can use HFRCO or HFXO as core clock. */
Kojto	71:53949e6131f6	245	/* All other devices must use HFXO as core clock. */
Kojto	71:53949e6131f6	246	if ( CMU_ClockSelectGet( cmuClock_HF ) != cmuSelect_HFXO )
Kojto	71:53949e6131f6	247	{
Kojto	71:53949e6131f6	248	CMU_ClockSelectSet( cmuClock_HF, cmuSelect_HFXO );
Kojto	71:53949e6131f6	249	}
Kojto	71:53949e6131f6	250	#endif
Kojto	71:53949e6131f6	251
Kojto	71:53949e6131f6	252	#if !defined( CMU_OSCENCMD_USHFRCOEN )
Kojto	71:53949e6131f6	253	#if ( USB_USBC_32kHz_CLK == USB_USBC_32kHz_CLK_LFXO )
Kojto	71:53949e6131f6	254	CMU_OscillatorEnable(cmuOsc_LFXO, true, false);
Kojto	71:53949e6131f6	255	#else
Kojto	71:53949e6131f6	256	CMU_OscillatorEnable(cmuOsc_LFRCO, true, false);
Kojto	71:53949e6131f6	257	#endif
Kojto	71:53949e6131f6	258
Kojto	71:53949e6131f6	259	#else
Kojto	71:53949e6131f6	260	CMU_ClockEnable(cmuClock_CORELE, true);
Kojto	71:53949e6131f6	261	/* LFC clock is needed to detect USB suspend when LEMIDLE is activated. */
Kojto	71:53949e6131f6	262	#if ( USB_USBC_32kHz_CLK == USB_USBC_32kHz_CLK_LFXO )
Kojto	71:53949e6131f6	263	CMU_ClockSelectSet(cmuClock_LFC, cmuSelect_LFXO);
Kojto	71:53949e6131f6	264	#else
Kojto	71:53949e6131f6	265	CMU_ClockSelectSet(cmuClock_LFC, cmuSelect_LFRCO);
Kojto	71:53949e6131f6	266	#endif
Kojto	71:53949e6131f6	267	CMU_ClockEnable(cmuClock_USBLE, true);
Kojto	71:53949e6131f6	268	#endif
Kojto	71:53949e6131f6	269
Kojto	71:53949e6131f6	270	USBTIMER_Init();
Kojto	71:53949e6131f6	271
Kojto	71:53949e6131f6	272	memset( dev, 0, sizeof( USBD_Device_TypeDef ) );
Kojto	71:53949e6131f6	273
Kojto	71:53949e6131f6	274	dev->setup = dev->setupPkt;
Kojto	71:53949e6131f6	275	dev->state = USBD_STATE_LASTMARKER;
Kojto	71:53949e6131f6	276	dev->savedState = USBD_STATE_NONE;
Kojto	71:53949e6131f6	277	dev->lastState = USBD_STATE_NONE;
Kojto	71:53949e6131f6	278	dev->callbacks = p->callbacks;
Kojto	71:53949e6131f6	279	dev->remoteWakeupEnabled = false;
Kojto	71:53949e6131f6	280
Kojto	71:53949e6131f6	281	/* Initialize EP0 */
Kojto	71:53949e6131f6	282
Kojto	71:53949e6131f6	283	ep = &dev->ep[ 0 ];
Kojto	71:53949e6131f6	284	ep->in = false;
Kojto	71:53949e6131f6	285	ep->buf = NULL;
Kojto	71:53949e6131f6	286	ep->num = 0;
Kojto	71:53949e6131f6	287	ep->mask = 1;
Kojto	71:53949e6131f6	288	ep->addr = 0;
Kojto	71:53949e6131f6	289	ep->type = USB_EPTYPE_CTRL;
Kojto	71:53949e6131f6	290	ep->txFifoNum = 0;
Kojto	71:53949e6131f6	291
Kojto	71:53949e6131f6	292	/* FIXME! */
Kojto	71:53949e6131f6	293	ep->packetSize = 64;
Kojto	71:53949e6131f6	294	dev->ep0MpsCode = _USB_DOEP0CTL_MPS_64B;
Kojto	71:53949e6131f6	295
Kojto	71:53949e6131f6	296	ep->remaining = 0;
Kojto	71:53949e6131f6	297	ep->xferred = 0;
Kojto	71:53949e6131f6	298	ep->state = D_EP_IDLE;
Kojto	71:53949e6131f6	299	ep->xferCompleteCb = NULL;
Kojto	71:53949e6131f6	300	ep->fifoSize = ep->packetSize / 4;
Kojto	71:53949e6131f6	301
Kojto	71:53949e6131f6	302	totalTxFifoSize = ep->fifoSize * p->bufferingMultiplier[ 0 ];
Kojto	71:53949e6131f6	303	totalRxFifoSize = (ep->fifoSize + 1) * p->bufferingMultiplier[ 0 ];
Kojto	71:53949e6131f6	304
Kojto	71:53949e6131f6	305	/* Rx-FIFO size: SETUP packets : 4*n + 6 n=#CTRL EP's
Kojto	71:53949e6131f6	306	* GOTNAK : 1
Kojto	71:53949e6131f6	307	* Status info : 2*n n=#OUT EP's (EP0 included) in HW
Kojto	71:53949e6131f6	308	*/
Kojto	71:53949e6131f6	309	totalRxFifoSize += 10 + 1 + ( 2 * (MAX_NUM_OUT_EPS + 1) );
Kojto	71:53949e6131f6	310
Kojto	71:53949e6131f6	311	INT_Disable();
Kojto	71:53949e6131f6	312
Kojto	71:53949e6131f6	313	/* Enable USB clock */
Kojto	71:53949e6131f6	314	CMU->HFCORECLKEN0 \|= CMU_HFCORECLKEN0_USB \| CMU_HFCORECLKEN0_USBC;
Kojto	71:53949e6131f6	315
Kojto	71:53949e6131f6	316	#if defined( CMU_OSCENCMD_USHFRCOEN )
Kojto	71:53949e6131f6	317	CMU->USHFRCOCONF = CMU_USHFRCOCONF_BAND_48MHZ;
Kojto	71:53949e6131f6	318	CMU_ClockSelectSet( cmuClock_USBC, cmuSelect_USHFRCO );
Kojto	71:53949e6131f6	319
Kojto	71:53949e6131f6	320	/* Enable USHFRCO Clock Recovery mode. */
Kojto	71:53949e6131f6	321	CMU->USBCRCTRL \|= CMU_USBCRCTRL_EN;
Kojto	71:53949e6131f6	322
Kojto	71:53949e6131f6	323	/* Turn on Low Energy Mode (LEM) features. */
Kojto	71:53949e6131f6	324	USB->CTRL = USB_CTRL_LEMOSCCTRL_GATE
Kojto	71:53949e6131f6	325	\| USB_CTRL_LEMIDLEEN
Kojto	71:53949e6131f6	326	\| USB_CTRL_LEMPHYCTRL;
Kojto	71:53949e6131f6	327	#else
Kojto	71:53949e6131f6	328	CMU_ClockSelectSet( cmuClock_USBC, cmuSelect_HFCLK );
Kojto	71:53949e6131f6	329	#endif
Kojto	71:53949e6131f6	330
Kojto	71:53949e6131f6	331	USBHAL_DisableGlobalInt();
Kojto	71:53949e6131f6	332
Kojto	71:53949e6131f6	333	if ( USBDHAL_CoreInit( totalRxFifoSize, totalTxFifoSize ) == USB_STATUS_OK )
Kojto	71:53949e6131f6	334	{
Kojto	71:53949e6131f6	335	USBDHAL_EnableUsbResetAndSuspendInt();
Kojto	71:53949e6131f6	336	USBHAL_EnableGlobalInt();
Kojto	71:53949e6131f6	337	NVIC_ClearPendingIRQ( USB_IRQn );
Kojto	71:53949e6131f6	338	NVIC_EnableIRQ( USB_IRQn );
Kojto	71:53949e6131f6	339	}
Kojto	71:53949e6131f6	340	else
Kojto	71:53949e6131f6	341	{
Kojto	71:53949e6131f6	342	INT_Enable();
Kojto	71:53949e6131f6	343	DEBUG_USB_API_PUTS( "\nUSBD_Init(), FIFO setup error" );
Kojto	71:53949e6131f6	344	EFM_ASSERT( false );
Kojto	71:53949e6131f6	345	return USB_STATUS_ILLEGAL;
Kojto	71:53949e6131f6	346	}
Kojto	71:53949e6131f6	347
Kojto	71:53949e6131f6	348	#if ( USB_PWRSAVE_MODE & USB_PWRSAVE_MODE_ONVBUSOFF )
Kojto	71:53949e6131f6	349	if ( USBHAL_VbusIsOn() )
Kojto	71:53949e6131f6	350	{
Kojto	71:53949e6131f6	351	USBD_SetUsbState( USBD_STATE_POWERED );
Kojto	71:53949e6131f6	352	}
Kojto	71:53949e6131f6	353	else
Kojto	71:53949e6131f6	354	#endif
Kojto	71:53949e6131f6	355	{
Kojto	71:53949e6131f6	356	USBD_SetUsbState( USBD_STATE_NONE );
Kojto	71:53949e6131f6	357	}
Kojto	71:53949e6131f6	358
Kojto	71:53949e6131f6	359	INT_Enable();
Kojto	71:53949e6131f6	360	return USB_STATUS_OK;
Kojto	71:53949e6131f6	361	}
Kojto	71:53949e6131f6	362
Kojto	71:53949e6131f6	363	/*************************************************************************//
Kojto	71:53949e6131f6	364	* @brief
Kojto	71:53949e6131f6	365	* Start a read (OUT) transfer on an endpoint.
Kojto	71:53949e6131f6	366	*
Kojto	71:53949e6131f6	367	* @note
Kojto	71:53949e6131f6	368	* The transfer buffer length must be a multiple of 4 bytes in length and
Kojto	71:53949e6131f6	369	* WORD (4 byte) aligned. When allocating the buffer, round buffer length up.
Kojto	71:53949e6131f6	370	* If it is possible that the host will send more data than your device
Kojto	71:53949e6131f6	371	* expects, round buffer size up to the next multiple of maxpacket size.
Kojto	71:53949e6131f6	372	*
Kojto	71:53949e6131f6	373	* @param[in] epAddr
Kojto	71:53949e6131f6	374	* Endpoint address.
Kojto	71:53949e6131f6	375	*
Kojto	71:53949e6131f6	376	* @param[in] data
Kojto	71:53949e6131f6	377	* Pointer to transfer data buffer.
Kojto	71:53949e6131f6	378	*
Kojto	71:53949e6131f6	379	* @param[in] byteCount
Kojto	71:53949e6131f6	380	* Transfer length.
Kojto	71:53949e6131f6	381	*
Kojto	71:53949e6131f6	382	* @param[in] callback
Kojto	71:53949e6131f6	383	* Function to be called on transfer completion. Supply NULL if no callback
Kojto	71:53949e6131f6	384	* is needed. See @ref USB_XferCompleteCb_TypeDef.
Kojto	71:53949e6131f6	385	*
Kojto	71:53949e6131f6	386	* @return
Kojto	71:53949e6131f6	387	* @ref USB_STATUS_OK on success, else an appropriate error code.
Kojto	71:53949e6131f6	388	******************************************************************************/
Kojto	71:53949e6131f6	389	int USBD_Read( int epAddr, void *data, int byteCount,
Kojto	71:53949e6131f6	390	USB_XferCompleteCb_TypeDef callback )
Kojto	71:53949e6131f6	391	{
Kojto	71:53949e6131f6	392	USBD_Ep_TypeDef *ep = USBD_GetEpFromAddr( epAddr );
Kojto	71:53949e6131f6	393
Kojto	71:53949e6131f6	394	USB_PRINTF("USBD: Read addr %x, data %p, size %d, cb 0x%lx\n",
Kojto	71:53949e6131f6	395	epAddr, data, byteCount, (uint32_t)callback);
Kojto	71:53949e6131f6	396
Kojto	71:53949e6131f6	397	if ( ep == NULL )
Kojto	71:53949e6131f6	398	{
Kojto	71:53949e6131f6	399	DEBUG_USB_API_PUTS( "\nUSBD_Read(), Illegal endpoint" );
Kojto	71:53949e6131f6	400	EFM_ASSERT( false );
Kojto	71:53949e6131f6	401	return USB_STATUS_ILLEGAL;
Kojto	71:53949e6131f6	402	}
Kojto	71:53949e6131f6	403
Kojto	71:53949e6131f6	404	if ( ( byteCount > MAX_XFER_LEN ) \|\|
Kojto	71:53949e6131f6	405	( ( byteCount / ep->packetSize ) > MAX_PACKETS_PR_XFER ) )
Kojto	71:53949e6131f6	406	{
Kojto	71:53949e6131f6	407	DEBUG_USB_API_PUTS( "\nUSBD_Read(), Illegal transfer size" );
Kojto	71:53949e6131f6	408	EFM_ASSERT( false );
Kojto	71:53949e6131f6	409	return USB_STATUS_ILLEGAL;
Kojto	71:53949e6131f6	410	}
Kojto	71:53949e6131f6	411
Kojto	71:53949e6131f6	412	if ( (uint32_t)data & 3 )
Kojto	71:53949e6131f6	413	{
Kojto	71:53949e6131f6	414	DEBUG_USB_API_PUTS( "\nUSBD_Read(), Misaligned data buffer" );
Kojto	71:53949e6131f6	415	EFM_ASSERT( false );
Kojto	71:53949e6131f6	416	return USB_STATUS_ILLEGAL;
Kojto	71:53949e6131f6	417	}
Kojto	71:53949e6131f6	418
Kojto	71:53949e6131f6	419	INT_Disable();
Kojto	71:53949e6131f6	420	if ( USBDHAL_EpIsStalled( ep ) )
Kojto	71:53949e6131f6	421	{
Kojto	71:53949e6131f6	422	INT_Enable();
Kojto	71:53949e6131f6	423	DEBUG_USB_API_PUTS( "\nUSBD_Read(), Endpoint is halted" );
Kojto	71:53949e6131f6	424	return USB_STATUS_EP_STALLED;
Kojto	71:53949e6131f6	425	}
Kojto	71:53949e6131f6	426
Kojto	71:53949e6131f6	427	if ( ep->state != D_EP_IDLE )
Kojto	71:53949e6131f6	428	{
Kojto	71:53949e6131f6	429	INT_Enable();
Kojto	71:53949e6131f6	430	DEBUG_USB_API_PUTS( "\nUSBD_Read(), Endpoint is busy" );
Kojto	71:53949e6131f6	431	return USB_STATUS_EP_BUSY;
Kojto	71:53949e6131f6	432	}
Kojto	71:53949e6131f6	433
Kojto	71:53949e6131f6	434	if ( ( ep->num > 0 ) && ( USBD_GetUsbState() != USBD_STATE_CONFIGURED ) )
Kojto	71:53949e6131f6	435	{
Kojto	71:53949e6131f6	436	INT_Enable();
Kojto	71:53949e6131f6	437	DEBUG_USB_API_PUTS( "\nUSBD_Read(), Device not configured" );
Kojto	71:53949e6131f6	438	return USB_STATUS_DEVICE_UNCONFIGURED;
Kojto	71:53949e6131f6	439	}
Kojto	71:53949e6131f6	440
Kojto	71:53949e6131f6	441	ep->buf = (uint8_t*)data;
Kojto	71:53949e6131f6	442	ep->remaining = byteCount;
Kojto	71:53949e6131f6	443	ep->xferred = 0;
Kojto	71:53949e6131f6	444
Kojto	71:53949e6131f6	445	if ( ep->num == 0 )
Kojto	71:53949e6131f6	446	{
Kojto	71:53949e6131f6	447	ep->in = false;
Kojto	71:53949e6131f6	448	}
Kojto	71:53949e6131f6	449	else if ( ep->in != false )
Kojto	71:53949e6131f6	450	{
Kojto	71:53949e6131f6	451	INT_Enable();
Kojto	71:53949e6131f6	452	DEBUG_USB_API_PUTS( "\nUSBD_Read(), Illegal EP direction" );
Kojto	71:53949e6131f6	453	EFM_ASSERT( false );
Kojto	71:53949e6131f6	454	return USB_STATUS_ILLEGAL;
Kojto	71:53949e6131f6	455	}
Kojto	71:53949e6131f6	456
Kojto	71:53949e6131f6	457	ep->state = D_EP_RECEIVING;
Kojto	71:53949e6131f6	458	ep->xferCompleteCb = callback;
Kojto	71:53949e6131f6	459
Kojto	71:53949e6131f6	460	USBD_ArmEp( ep );
Kojto	71:53949e6131f6	461	INT_Enable();
Kojto	71:53949e6131f6	462	return USB_STATUS_OK;
Kojto	71:53949e6131f6	463	}
Kojto	71:53949e6131f6	464
Kojto	71:53949e6131f6	465	/*************************************************************************//
Kojto	71:53949e6131f6	466	* @brief
Kojto	71:53949e6131f6	467	* Perform a remote wakeup signalling sequence.
Kojto	71:53949e6131f6	468	*
Kojto	71:53949e6131f6	469	* @note
Kojto	71:53949e6131f6	470	* It is the responsibility of the application to ensure that remote wakeup
Kojto	71:53949e6131f6	471	* is not attempted before the device has been suspended for at least 5
Kojto	71:53949e6131f6	472	* miliseconds. This function should not be called from within an interrupt
Kojto	71:53949e6131f6	473	* handler.
Kojto	71:53949e6131f6	474	*
Kojto	71:53949e6131f6	475	* @return
Kojto	71:53949e6131f6	476	* @ref USB_STATUS_OK on success, else an appropriate error code.
Kojto	71:53949e6131f6	477	******************************************************************************/
Kojto	71:53949e6131f6	478	int USBD_RemoteWakeup( void )
Kojto	71:53949e6131f6	479	{
Kojto	71:53949e6131f6	480	INT_Disable();
Kojto	71:53949e6131f6	481
Kojto	71:53949e6131f6	482	if ( ( dev->state != USBD_STATE_SUSPENDED ) \|\|
Kojto	71:53949e6131f6	483	( dev->remoteWakeupEnabled == false ) )
Kojto	71:53949e6131f6	484	{
Kojto	71:53949e6131f6	485	INT_Enable();
Kojto	71:53949e6131f6	486	DEBUG_USB_API_PUTS( "\nUSBD_RemoteWakeup(), Illegal remote wakeup" );
Kojto	71:53949e6131f6	487	return USB_STATUS_ILLEGAL;
Kojto	71:53949e6131f6	488	}
Kojto	71:53949e6131f6	489
Kojto	71:53949e6131f6	490	USBDHAL_SetRemoteWakeup();
Kojto	71:53949e6131f6	491	INT_Enable();
Kojto	71:53949e6131f6	492	USBTIMER_DelayMs( 10 );
Kojto	71:53949e6131f6	493	INT_Disable();
Kojto	71:53949e6131f6	494	USBDHAL_ClearRemoteWakeup();
Kojto	71:53949e6131f6	495	INT_Enable();
Kojto	71:53949e6131f6	496	return USB_STATUS_OK;
Kojto	71:53949e6131f6	497	}
Kojto	71:53949e6131f6	498
Kojto	71:53949e6131f6	499	/*************************************************************************//
Kojto	71:53949e6131f6	500	* @brief
Kojto	71:53949e6131f6	501	* Check if it is ok to enter energy mode EM2.
Kojto	71:53949e6131f6	502	*
Kojto	71:53949e6131f6	503	* @note
Kojto	71:53949e6131f6	504	* Before entering EM2 both the USB hardware and the USB stack must be in a
Kojto	71:53949e6131f6	505	* certain state, this function checks if all conditions for entering EM2
Kojto	71:53949e6131f6	506	* is met.
Kojto	71:53949e6131f6	507	* Refer to the @ref usb_device_powersave section for more information.
Kojto	71:53949e6131f6	508	*
Kojto	71:53949e6131f6	509	* @return
Kojto	71:53949e6131f6	510	* True if ok to enter EM2, false otherwise.
Kojto	71:53949e6131f6	511	******************************************************************************/
Kojto	71:53949e6131f6	512	bool USBD_SafeToEnterEM2( void )
Kojto	71:53949e6131f6	513	{
Kojto	71:53949e6131f6	514	#if ( USB_PWRSAVE_MODE )
Kojto	71:53949e6131f6	515	return USBD_poweredDown ? true : false;
Kojto	71:53949e6131f6	516	#else
Kojto	71:53949e6131f6	517	return false;
Kojto	71:53949e6131f6	518	#endif
Kojto	71:53949e6131f6	519	}
Kojto	71:53949e6131f6	520
Kojto	71:53949e6131f6	521	/** @cond DO_NOT_INCLUDE_WITH_DOXYGEN */
Kojto	71:53949e6131f6	522
Kojto	71:53949e6131f6	523	void USBD_SetUsbState( USBD_State_TypeDef newState )
Kojto	71:53949e6131f6	524	{
Kojto	71:53949e6131f6	525	USBD_State_TypeDef currentState;
Kojto	71:53949e6131f6	526
Kojto	71:53949e6131f6	527	currentState = dev->state;
Kojto	71:53949e6131f6	528	if ( newState == USBD_STATE_SUSPENDED )
Kojto	71:53949e6131f6	529	{
Kojto	71:53949e6131f6	530	dev->savedState = currentState;
Kojto	71:53949e6131f6	531	}
Kojto	71:53949e6131f6	532
Kojto	71:53949e6131f6	533	dev->lastState = dev->state;
Kojto	71:53949e6131f6	534	dev->state = newState;
Kojto	71:53949e6131f6	535
Kojto	71:53949e6131f6	536	if ( ( dev->callbacks->usbStateChange ) &&
Kojto	71:53949e6131f6	537	( currentState != newState ) )
Kojto	71:53949e6131f6	538	{
Kojto	71:53949e6131f6	539	/* When we transition to a state "lower" than CONFIGURED
Kojto	71:53949e6131f6	540	* we must reset the endpoint data
Kojto	71:53949e6131f6	541	*/
Kojto	71:53949e6131f6	542	if ( (dev->lastState == USBD_STATE_CONFIGURED \|\|
Kojto	71:53949e6131f6	543	dev->lastState == USBD_STATE_SUSPENDED ) &&
Kojto	71:53949e6131f6	544	dev->state < USBD_STATE_CONFIGURED )
Kojto	71:53949e6131f6	545	{
Kojto	71:53949e6131f6	546	USBD_ResetEndpoints();
Kojto	71:53949e6131f6	547	}
Kojto	71:53949e6131f6	548
Kojto	71:53949e6131f6	549	dev->callbacks->usbStateChange( currentState, newState );
Kojto	71:53949e6131f6	550	}
Kojto	71:53949e6131f6	551	}
Kojto	71:53949e6131f6	552
Kojto	71:53949e6131f6	553	/** @endcond */
Kojto	71:53949e6131f6	554
Kojto	71:53949e6131f6	555	/*************************************************************************//
Kojto	71:53949e6131f6	556	* @brief
Kojto	71:53949e6131f6	557	* Set an endpoint in the stalled (halted) state.
Kojto	71:53949e6131f6	558	*
Kojto	71:53949e6131f6	559	* @param[in] epAddr
Kojto	71:53949e6131f6	560	* The address of the endpoint to stall.
Kojto	71:53949e6131f6	561	*
Kojto	71:53949e6131f6	562	* @return
Kojto	71:53949e6131f6	563	* @ref USB_STATUS_OK on success, else an appropriate error code.
Kojto	71:53949e6131f6	564	******************************************************************************/
Kojto	71:53949e6131f6	565	int USBD_StallEp( int epAddr )
Kojto	71:53949e6131f6	566	{
Kojto	71:53949e6131f6	567	USB_Status_TypeDef retVal;
Kojto	71:53949e6131f6	568	USBD_Ep_TypeDef *ep = USBD_GetEpFromAddr( epAddr );
Kojto	71:53949e6131f6	569
Kojto	71:53949e6131f6	570	if ( ep == NULL )
Kojto	71:53949e6131f6	571	{
Kojto	71:53949e6131f6	572	DEBUG_USB_API_PUTS( "\nUSBD_StallEp(), Illegal request" );
Kojto	71:53949e6131f6	573	EFM_ASSERT( false );
Kojto	71:53949e6131f6	574	return USB_STATUS_ILLEGAL;
Kojto	71:53949e6131f6	575	}
Kojto	71:53949e6131f6	576
Kojto	71:53949e6131f6	577	if ( ep->num == 0 )
Kojto	71:53949e6131f6	578	{
Kojto	71:53949e6131f6	579	DEBUG_USB_API_PUTS( "\nUSBD_StallEp(), Illegal endpoint" );
Kojto	71:53949e6131f6	580	EFM_ASSERT( false );
Kojto	71:53949e6131f6	581	return USB_STATUS_ILLEGAL;
Kojto	71:53949e6131f6	582	}
Kojto	71:53949e6131f6	583
Kojto	71:53949e6131f6	584	INT_Disable();
Kojto	71:53949e6131f6	585	retVal = USBDHAL_StallEp( ep );
Kojto	71:53949e6131f6	586	INT_Enable();
Kojto	71:53949e6131f6	587
Kojto	71:53949e6131f6	588	if ( retVal != USB_STATUS_OK )
Kojto	71:53949e6131f6	589	{
Kojto	71:53949e6131f6	590	retVal = USB_STATUS_ILLEGAL;
Kojto	71:53949e6131f6	591	}
Kojto	71:53949e6131f6	592
Kojto	71:53949e6131f6	593	return retVal;
Kojto	71:53949e6131f6	594	}
Kojto	71:53949e6131f6	595
Kojto	71:53949e6131f6	596	/*************************************************************************//
Kojto	71:53949e6131f6	597	* @brief
Kojto	71:53949e6131f6	598	* Stop USB device stack operation.
Kojto	71:53949e6131f6	599	*
Kojto	71:53949e6131f6	600	* @details
Kojto	71:53949e6131f6	601	* The data-line pullup resistor is turned off, USB interrupts are disabled,
Kojto	71:53949e6131f6	602	* and finally the USB pins are disabled.
Kojto	71:53949e6131f6	603	******************************************************************************/
Kojto	71:53949e6131f6	604	void USBD_Stop( void )
Kojto	71:53949e6131f6	605	{
Kojto	71:53949e6131f6	606	USBD_Disconnect();
Kojto	71:53949e6131f6	607	NVIC_DisableIRQ( USB_IRQn );
Kojto	71:53949e6131f6	608	USBHAL_DisableGlobalInt();
Kojto	71:53949e6131f6	609	USBHAL_DisableUsbInt();
Kojto	71:53949e6131f6	610	USBHAL_DisablePhyPins();
Kojto	71:53949e6131f6	611	USBD_SetUsbState( USBD_STATE_NONE );
Kojto	71:53949e6131f6	612	/* Turn off USB clocks. */
Kojto	71:53949e6131f6	613	CMU->HFCORECLKEN0 &= ~(CMU_HFCORECLKEN0_USB \| CMU_HFCORECLKEN0_USBC);
Kojto	71:53949e6131f6	614	}
Kojto	71:53949e6131f6	615
Kojto	71:53949e6131f6	616	/*************************************************************************//
Kojto	71:53949e6131f6	617	* @brief
Kojto	71:53949e6131f6	618	* Reset stall state on a stalled (halted) endpoint.
Kojto	71:53949e6131f6	619	*
Kojto	71:53949e6131f6	620	* @param[in] epAddr
Kojto	71:53949e6131f6	621	* The address of the endpoint to un-stall.
Kojto	71:53949e6131f6	622	*
Kojto	71:53949e6131f6	623	* @return
Kojto	71:53949e6131f6	624	* @ref USB_STATUS_OK on success, else an appropriate error code.
Kojto	71:53949e6131f6	625	******************************************************************************/
Kojto	71:53949e6131f6	626	int USBD_UnStallEp( int epAddr )
Kojto	71:53949e6131f6	627	{
Kojto	71:53949e6131f6	628	USB_Status_TypeDef retVal;
Kojto	71:53949e6131f6	629	USBD_Ep_TypeDef *ep = USBD_GetEpFromAddr( epAddr );
Kojto	71:53949e6131f6	630
Kojto	71:53949e6131f6	631	if ( ep == NULL )
Kojto	71:53949e6131f6	632	{
Kojto	71:53949e6131f6	633	DEBUG_USB_API_PUTS( "\nUSBD_UnStallEp(), Illegal request" );
Kojto	71:53949e6131f6	634	EFM_ASSERT( false );
Kojto	71:53949e6131f6	635	return USB_STATUS_ILLEGAL;
Kojto	71:53949e6131f6	636	}
Kojto	71:53949e6131f6	637
Kojto	71:53949e6131f6	638	if ( ep->num == 0 )
Kojto	71:53949e6131f6	639	{
Kojto	71:53949e6131f6	640	DEBUG_USB_API_PUTS( "\nUSBD_UnStallEp(), Illegal endpoint" );
Kojto	71:53949e6131f6	641	EFM_ASSERT( false );
Kojto	71:53949e6131f6	642	return USB_STATUS_ILLEGAL;
Kojto	71:53949e6131f6	643	}
Kojto	71:53949e6131f6	644
Kojto	71:53949e6131f6	645	INT_Disable();
Kojto	71:53949e6131f6	646	retVal = USBDHAL_UnStallEp( ep );
Kojto	71:53949e6131f6	647	INT_Enable();
Kojto	71:53949e6131f6	648
Kojto	71:53949e6131f6	649	if ( retVal != USB_STATUS_OK )
Kojto	71:53949e6131f6	650	{
Kojto	71:53949e6131f6	651	retVal = USB_STATUS_ILLEGAL;
Kojto	71:53949e6131f6	652	}
Kojto	71:53949e6131f6	653
Kojto	71:53949e6131f6	654	return retVal;
Kojto	71:53949e6131f6	655	}
Kojto	71:53949e6131f6	656
Kojto	71:53949e6131f6	657	/*************************************************************************//
Kojto	71:53949e6131f6	658	* @brief
Kojto	71:53949e6131f6	659	* Start a write (IN) transfer on an endpoint.
Kojto	71:53949e6131f6	660	*
Kojto	71:53949e6131f6	661	* @param[in] epAddr
Kojto	71:53949e6131f6	662	* Endpoint address.
Kojto	71:53949e6131f6	663	*
Kojto	71:53949e6131f6	664	* @param[in] data
Kojto	71:53949e6131f6	665	* Pointer to transfer data buffer. This buffer must be WORD (4 byte) aligned.
Kojto	71:53949e6131f6	666	*
Kojto	71:53949e6131f6	667	* @param[in] byteCount
Kojto	71:53949e6131f6	668	* Transfer length.
Kojto	71:53949e6131f6	669	*
Kojto	71:53949e6131f6	670	* @param[in] callback
Kojto	71:53949e6131f6	671	* Function to be called on transfer completion. Supply NULL if no callback
Kojto	71:53949e6131f6	672	* is needed. See @ref USB_XferCompleteCb_TypeDef.
Kojto	71:53949e6131f6	673	*
Kojto	71:53949e6131f6	674	* @return
Kojto	71:53949e6131f6	675	* @ref USB_STATUS_OK on success, else an appropriate error code.
Kojto	71:53949e6131f6	676	******************************************************************************/
Kojto	71:53949e6131f6	677	int USBD_Write( int epAddr, void *data, int byteCount,
Kojto	71:53949e6131f6	678	USB_XferCompleteCb_TypeDef callback )
Kojto	71:53949e6131f6	679	{
Kojto	71:53949e6131f6	680	USBD_Ep_TypeDef *ep = USBD_GetEpFromAddr( epAddr );
Kojto	71:53949e6131f6	681
Kojto	71:53949e6131f6	682	USB_PRINTF("USBD: Write addr %x, data %p, size %d, cb 0x%lx\n",
Kojto	71:53949e6131f6	683	epAddr, data, byteCount, (uint32_t)callback);
Kojto	71:53949e6131f6	684
Kojto	71:53949e6131f6	685	if ( ep == NULL )
Kojto	71:53949e6131f6	686	{
Kojto	71:53949e6131f6	687	DEBUG_USB_API_PUTS( "\nUSBD_Write(), Illegal endpoint" );
Kojto	71:53949e6131f6	688	EFM_ASSERT( false );
Kojto	71:53949e6131f6	689	return USB_STATUS_ILLEGAL;
Kojto	71:53949e6131f6	690	}
Kojto	71:53949e6131f6	691
Kojto	71:53949e6131f6	692	if ( ( byteCount > MAX_XFER_LEN ) \|\|
Kojto	71:53949e6131f6	693	( ( byteCount / ep->packetSize ) > MAX_PACKETS_PR_XFER ) )
Kojto	71:53949e6131f6	694	{
Kojto	71:53949e6131f6	695	DEBUG_USB_API_PUTS( "\nUSBD_Write(), Illegal transfer size" );
Kojto	71:53949e6131f6	696	EFM_ASSERT( false );
Kojto	71:53949e6131f6	697	return USB_STATUS_ILLEGAL;
Kojto	71:53949e6131f6	698	}
Kojto	71:53949e6131f6	699
Kojto	71:53949e6131f6	700	if ( (uint32_t)data & 3 )
Kojto	71:53949e6131f6	701	{
Kojto	71:53949e6131f6	702	DEBUG_USB_API_PUTS( "\nUSBD_Write(), Misaligned data buffer" );
Kojto	71:53949e6131f6	703	EFM_ASSERT( false );
Kojto	71:53949e6131f6	704	return USB_STATUS_ILLEGAL;
Kojto	71:53949e6131f6	705	}
Kojto	71:53949e6131f6	706
Kojto	71:53949e6131f6	707	INT_Disable();
Kojto	71:53949e6131f6	708	if ( USBDHAL_EpIsStalled( ep ) )
Kojto	71:53949e6131f6	709	{
Kojto	71:53949e6131f6	710	INT_Enable();
Kojto	71:53949e6131f6	711	DEBUG_USB_API_PUTS( "\nUSBD_Write(), Endpoint is halted" );
Kojto	71:53949e6131f6	712	return USB_STATUS_EP_STALLED;
Kojto	71:53949e6131f6	713	}
Kojto	71:53949e6131f6	714
Kojto	71:53949e6131f6	715	if ( ep->state != D_EP_IDLE )
Kojto	71:53949e6131f6	716	{
Kojto	71:53949e6131f6	717	INT_Enable();
Kojto	71:53949e6131f6	718	DEBUG_USB_API_PUTS( "\nUSBD_Write(), Endpoint is busy" );
Kojto	71:53949e6131f6	719	return USB_STATUS_EP_BUSY;
Kojto	71:53949e6131f6	720	}
Kojto	71:53949e6131f6	721
Kojto	71:53949e6131f6	722	if ( ( ep->num > 0 ) && ( USBD_GetUsbState() != USBD_STATE_CONFIGURED ) )
Kojto	71:53949e6131f6	723	{
Kojto	71:53949e6131f6	724	INT_Enable();
Kojto	71:53949e6131f6	725	DEBUG_USB_API_PUTS( "\nUSBD_Write(), Device not configured" );
Kojto	71:53949e6131f6	726	return USB_STATUS_DEVICE_UNCONFIGURED;
Kojto	71:53949e6131f6	727	}
Kojto	71:53949e6131f6	728
Kojto	71:53949e6131f6	729	ep->buf = (uint8_t*)data;
Kojto	71:53949e6131f6	730	ep->remaining = byteCount;
Kojto	71:53949e6131f6	731	ep->xferred = 0;
Kojto	71:53949e6131f6	732
Kojto	71:53949e6131f6	733	if ( ep->num == 0 )
Kojto	71:53949e6131f6	734	{
Kojto	71:53949e6131f6	735	ep->in = true;
Kojto	71:53949e6131f6	736	}
Kojto	71:53949e6131f6	737	else if ( ep->in != true )
Kojto	71:53949e6131f6	738	{
Kojto	71:53949e6131f6	739	INT_Enable();
Kojto	71:53949e6131f6	740	DEBUG_USB_API_PUTS( "\nUSBD_Write(), Illegal EP direction" );
Kojto	71:53949e6131f6	741	EFM_ASSERT( false );
Kojto	71:53949e6131f6	742	return USB_STATUS_ILLEGAL;
Kojto	71:53949e6131f6	743	}
Kojto	71:53949e6131f6	744
Kojto	71:53949e6131f6	745	ep->state = D_EP_TRANSMITTING;
Kojto	71:53949e6131f6	746	ep->xferCompleteCb = callback;
Kojto	71:53949e6131f6	747
Kojto	71:53949e6131f6	748	USBD_ArmEp( ep );
Kojto	71:53949e6131f6	749	INT_Enable();
Kojto	71:53949e6131f6	750	return USB_STATUS_OK;
Kojto	71:53949e6131f6	751	}
Kojto	71:53949e6131f6	752
Kojto	71:53949e6131f6	753	int USBD_SetAddress(uint8_t addr)
Kojto	71:53949e6131f6	754	{
Kojto	71:53949e6131f6	755	int retVal = USB_STATUS_REQ_ERR;
Kojto	71:53949e6131f6	756
Kojto	71:53949e6131f6	757	if ( dev->state == USBD_STATE_DEFAULT )
Kojto	71:53949e6131f6	758	{
Kojto	71:53949e6131f6	759	if ( addr != 0 )
Kojto	71:53949e6131f6	760	{
Kojto	71:53949e6131f6	761	USBD_SetUsbState( USBD_STATE_ADDRESSED );
Kojto	71:53949e6131f6	762	}
Kojto	71:53949e6131f6	763	USBDHAL_SetAddr( addr );
Kojto	71:53949e6131f6	764	retVal = USB_STATUS_OK;
Kojto	71:53949e6131f6	765	}
Kojto	71:53949e6131f6	766	else if ( dev->state == USBD_STATE_ADDRESSED )
Kojto	71:53949e6131f6	767	{
Kojto	71:53949e6131f6	768	if ( addr == 0 )
Kojto	71:53949e6131f6	769	{
Kojto	71:53949e6131f6	770	USBD_SetUsbState( USBD_STATE_DEFAULT );
Kojto	71:53949e6131f6	771	}
Kojto	71:53949e6131f6	772	USBDHAL_SetAddr( addr );
Kojto	71:53949e6131f6	773	retVal = USB_STATUS_OK;
Kojto	71:53949e6131f6	774	}
Kojto	71:53949e6131f6	775
Kojto	71:53949e6131f6	776	return retVal;
Kojto	71:53949e6131f6	777	}
Kojto	71:53949e6131f6	778
Kojto	71:53949e6131f6	779	/*************************************************************************//
Kojto	71:53949e6131f6	780	* @brief
Kojto	71:53949e6131f6	781	* Query the stall state of an endpoint
Kojto	71:53949e6131f6	782	*
Kojto	71:53949e6131f6	783	* @param[in] epAddr
Kojto	71:53949e6131f6	784	* The address of the endpoint to query.
Kojto	71:53949e6131f6	785	*
Kojto	71:53949e6131f6	786	* @return
Kojto	71:53949e6131f6	787	* True if endpoint is stalled, false otherwise
Kojto	71:53949e6131f6	788	******************************************************************************/
Kojto	71:53949e6131f6	789	int USBD_EpIsStalled(int epAddr)
Kojto	71:53949e6131f6	790	{
Kojto	71:53949e6131f6	791	USBD_Ep_TypeDef *ep = USBD_GetEpFromAddr( epAddr );
Kojto	71:53949e6131f6	792
Kojto	71:53949e6131f6	793	if( !ep )
Kojto	71:53949e6131f6	794	{
Kojto	71:53949e6131f6	795	return false;
Kojto	71:53949e6131f6	796	}
Kojto	71:53949e6131f6	797
Kojto	71:53949e6131f6	798	return USBDHAL_EpIsStalled(ep);
Kojto	71:53949e6131f6	799	}
Kojto	71:53949e6131f6	800
Kojto	71:53949e6131f6	801	/*************************************************************************//
Kojto	71:53949e6131f6	802	* @brief
Kojto	71:53949e6131f6	803	* Reset (remove) all client endpoints
Kojto	71:53949e6131f6	804	*
Kojto	71:53949e6131f6	805	* @details
Kojto	71:53949e6131f6	806	* Removes client endpoints, and resets the RX/TX fifos. No endpoints
Kojto	71:53949e6131f6	807	* other than EP0 can be used until added with @ref USBD_AddEndpoint.
Kojto	71:53949e6131f6	808	******************************************************************************/
Kojto	71:53949e6131f6	809	static void USBD_ResetEndpoints(void)
Kojto	71:53949e6131f6	810	{
Kojto	71:53949e6131f6	811	USBD_Ep_TypeDef *ep = &dev->ep[0];
Kojto	71:53949e6131f6	812
Kojto	71:53949e6131f6	813	numEps = 0;
Kojto	71:53949e6131f6	814	txFifoNum = 1;
Kojto	71:53949e6131f6	815
Kojto	71:53949e6131f6	816	totalTxFifoSize = ep->fifoSize * 1;
Kojto	71:53949e6131f6	817	totalRxFifoSize = (ep->fifoSize + 1) * 1;
Kojto	71:53949e6131f6	818	totalRxFifoSize += 10 + 1 + ( 2 * (MAX_NUM_OUT_EPS + 1) );
Kojto	71:53949e6131f6	819	}
Kojto	71:53949e6131f6	820
Kojto	71:53949e6131f6	821	/*************************************************************************//
Kojto	71:53949e6131f6	822	* @brief
Kojto	71:53949e6131f6	823	* Add a new endpoint
Kojto	71:53949e6131f6	824	*
Kojto	71:53949e6131f6	825	* @param[in] epAddr
Kojto	71:53949e6131f6	826	* Endpoint address
Kojto	71:53949e6131f6	827	*
Kojto	71:53949e6131f6	828	* @param[in] transferType
Kojto	71:53949e6131f6	829	* Endpoint type, one of @ref USB_EPTYPE_BULK, @ref USB_EPTYPE_INTR or
Kojto	71:53949e6131f6	830	* @ref USB_EPTYPE_ISOC.
Kojto	71:53949e6131f6	831	*
Kojto	71:53949e6131f6	832	* @param[in] maxPacketSize
Kojto	71:53949e6131f6	833	* Maximum packet size of the new endpoint, in bytes
Kojto	71:53949e6131f6	834	*
Kojto	71:53949e6131f6	835	* @param[in] bufferMult
Kojto	71:53949e6131f6	836	* FIFO buffer size multiplier
Kojto	71:53949e6131f6	837	*
Kojto	71:53949e6131f6	838	* @return
Kojto	71:53949e6131f6	839	* @ref USB_STATUS_OK on success, else an appropriate error code.
Kojto	71:53949e6131f6	840	******************************************************************************/
Kojto	71:53949e6131f6	841	int USBD_AddEndpoint(int epAddr, int transferType,
Kojto	71:53949e6131f6	842	int maxPacketSize, int bufferMult)
Kojto	71:53949e6131f6	843	{
Kojto	71:53949e6131f6	844	USBD_Ep_TypeDef *ep;
Kojto	71:53949e6131f6	845
Kojto	71:53949e6131f6	846	numEps++;
Kojto	71:53949e6131f6	847
Kojto	71:53949e6131f6	848	ep = &dev->ep[ numEps ];
Kojto	71:53949e6131f6	849	ep->in = ( epAddr & USB_SETUP_DIR_MASK ) != 0;
Kojto	71:53949e6131f6	850	ep->buf = NULL;
Kojto	71:53949e6131f6	851	ep->addr = epAddr;
Kojto	71:53949e6131f6	852	ep->num = ep->addr & USB_EPNUM_MASK;
Kojto	71:53949e6131f6	853	ep->mask = 1 << ep->num;
Kojto	71:53949e6131f6	854	ep->type = transferType;
Kojto	71:53949e6131f6	855	ep->packetSize = maxPacketSize;
Kojto	71:53949e6131f6	856	ep->remaining = 0;
Kojto	71:53949e6131f6	857	ep->xferred = 0;
Kojto	71:53949e6131f6	858	ep->state = D_EP_IDLE;
Kojto	71:53949e6131f6	859	ep->xferCompleteCb = NULL;
Kojto	71:53949e6131f6	860
Kojto	71:53949e6131f6	861	if ( ep->in )
Kojto	71:53949e6131f6	862	{
Kojto	71:53949e6131f6	863	ep->txFifoNum = txFifoNum++;
Kojto	71:53949e6131f6	864	ep->fifoSize = ( ( ep->packetSize + 3 ) / 4 ) * bufferMult;
Kojto	71:53949e6131f6	865	dev->inEpAddr2EpIndex[ ep->num ] = numEps;
Kojto	71:53949e6131f6	866	totalTxFifoSize += ep->fifoSize;
Kojto	71:53949e6131f6	867
Kojto	71:53949e6131f6	868	if ( ep->num > MAX_NUM_IN_EPS )
Kojto	71:53949e6131f6	869	{
Kojto	71:53949e6131f6	870	DEBUG_USB_API_PUTS( "\nUSBD_AddEndpoint(), Illegal IN EP address" );
Kojto	71:53949e6131f6	871	EFM_ASSERT( false );
Kojto	71:53949e6131f6	872	return USB_STATUS_ILLEGAL;
Kojto	71:53949e6131f6	873	}
Kojto	71:53949e6131f6	874	}
Kojto	71:53949e6131f6	875	else
Kojto	71:53949e6131f6	876	{
Kojto	71:53949e6131f6	877	ep->fifoSize = ( ( ( ep->packetSize + 3 ) / 4 ) + 1 ) * bufferMult;
Kojto	71:53949e6131f6	878	dev->outEpAddr2EpIndex[ ep->num ] = numEps;
Kojto	71:53949e6131f6	879	totalRxFifoSize += ep->fifoSize;
Kojto	71:53949e6131f6	880
Kojto	71:53949e6131f6	881	if ( ep->num > MAX_NUM_OUT_EPS )
Kojto	71:53949e6131f6	882	{
Kojto	71:53949e6131f6	883	DEBUG_USB_API_PUTS( "\nUSBD_AddEndpoint(), Illegal OUT EP address" );
Kojto	71:53949e6131f6	884	EFM_ASSERT( false );
Kojto	71:53949e6131f6	885	return USB_STATUS_ILLEGAL;
Kojto	71:53949e6131f6	886	}
Kojto	71:53949e6131f6	887	}
Kojto	71:53949e6131f6	888
Kojto	71:53949e6131f6	889	USB_PRINTF("USBD: Added endpoint %d to slot %d, in %d, addr 0x%x, type %d, ps %d, fifo %ld (total tx %ld, rx %ld)\n",
Kojto	71:53949e6131f6	890	ep->num, numEps, ep->in, ep->addr, ep->type, ep->packetSize, ep->fifoSize,
Kojto	71:53949e6131f6	891	totalTxFifoSize, totalRxFifoSize);
Kojto	71:53949e6131f6	892
Kojto	71:53949e6131f6	893	INT_Disable();
Kojto	71:53949e6131f6	894	#if defined( CMU_OSCENCMD_USHFRCOEN )
Kojto	71:53949e6131f6	895	/* Happy Gecko workaround: disable LEM GATE mode if using ISOC endpoints. */
Kojto	71:53949e6131f6	896	if ( transferType == USB_EPTYPE_ISOC )
Kojto	71:53949e6131f6	897	{
Kojto	71:53949e6131f6	898	USB->CTRL = (USB->CTRL & ~_USB_CTRL_LEMOSCCTRL_MASK) \| USB_CTRL_LEMOSCCTRL_NONE;
Kojto	71:53949e6131f6	899	}
Kojto	71:53949e6131f6	900	#endif
Kojto	71:53949e6131f6	901
Kojto	71:53949e6131f6	902	int ret = USBDHAL_ReconfigureFifos(totalRxFifoSize, totalTxFifoSize);
Kojto	71:53949e6131f6	903	INT_Enable();
Kojto	71:53949e6131f6	904
Kojto	71:53949e6131f6	905	if( ret != USB_STATUS_OK ) {
Kojto	71:53949e6131f6	906	return ret;
Kojto	71:53949e6131f6	907	}
Kojto	71:53949e6131f6	908
Kojto	71:53949e6131f6	909	USBDHAL_ActivateEp(ep, false);
Kojto	71:53949e6131f6	910
Kojto	71:53949e6131f6	911	return USB_STATUS_OK;
Kojto	71:53949e6131f6	912	}
Kojto	71:53949e6131f6	913
Kojto	71:53949e6131f6	914
Kojto	71:53949e6131f6	915	/*************************************************************************//
Kojto	71:53949e6131f6	916	* @brief
Kojto	71:53949e6131f6	917	* Set an endpoint0 in the stalled (halted) state.
Kojto	71:53949e6131f6	918	*
Kojto	71:53949e6131f6	919	* @details
Kojto	71:53949e6131f6	920	* Temporarily stalls endpoint 0. Used to signal a failure to respond to
Kojto	71:53949e6131f6	921	* the host's setup packet.
Kojto	71:53949e6131f6	922	******************************************************************************/
Kojto	71:53949e6131f6	923	void USBD_StallEp0()
Kojto	71:53949e6131f6	924	{
Kojto	71:53949e6131f6	925	int const epAddr = 0;
Kojto	71:53949e6131f6	926	USBD_Ep_TypeDef *ep = USBD_GetEpFromAddr( epAddr );
Kojto	71:53949e6131f6	927	ep->in = true;
Kojto	71:53949e6131f6	928	USBDHAL_StallEp( ep ); /* Stall Ep0 IN */
Kojto	71:53949e6131f6	929	ep->in = false; /* OUT for next SETUP */
Kojto	71:53949e6131f6	930	USBDHAL_StallEp( ep ); /* Stall Ep0 OUT */
Kojto	71:53949e6131f6	931	#if !defined( USB_DOEP0INT_STUPPKTRCVD )
Kojto	71:53949e6131f6	932	USBDHAL_ReenableEp0Setup( dev ); /* Prepare for next SETUP pkt. */
Kojto	71:53949e6131f6	933	#else
Kojto	71:53949e6131f6	934	USBDHAL_StartEp0Setup( dev );
Kojto	71:53949e6131f6	935	#endif
Kojto	71:53949e6131f6	936	ep->state = D_EP_IDLE;
Kojto	71:53949e6131f6	937	}
Kojto	71:53949e6131f6	938
Kojto	71:53949e6131f6	939	/****** THE REST OF THE FILE IS DOCUMENTATION ONLY !******************//
Kojto	71:53949e6131f6	940	* @{
Kojto	71:53949e6131f6	941
Kojto	71:53949e6131f6	942	@page usb_device USB device stack library
Kojto	71:53949e6131f6	943
Kojto	71:53949e6131f6	944	The source files for the USB device stack resides in the usb directory
Kojto	71:53949e6131f6	945	and follows the naming convention: em_usbd<em>nnn</em>.c/h.
Kojto	71:53949e6131f6	946
Kojto	71:53949e6131f6	947	@li @ref usb_device_intro
Kojto	71:53949e6131f6	948	@li @ref usb_device_api
Kojto	71:53949e6131f6	949	@li @ref usb_device_conf
Kojto	71:53949e6131f6	950	@li @ref usb_device_powersave
Kojto	71:53949e6131f6	951	@li @ref usb_device_example1
Kojto	71:53949e6131f6	952
Kojto	71:53949e6131f6	953
Kojto	71:53949e6131f6	954	@n @section usb_device_intro Introduction
Kojto	71:53949e6131f6	955
Kojto	71:53949e6131f6	956	The USB device protocol stack provides an API which makes it possible to
Kojto	71:53949e6131f6	957	create USB devices with a minimum of effort. The device stack supports control,
Kojto	71:53949e6131f6	958	bulk and interrupt transfers.
Kojto	71:53949e6131f6	959
Kojto	71:53949e6131f6	960	The stack is highly configurable to suit various needs, it does also contain
Kojto	71:53949e6131f6	961	useful debugging features together with several demonstration projects to
Kojto	71:53949e6131f6	962	get you started fast.
Kojto	71:53949e6131f6	963
Kojto	71:53949e6131f6	964	We recommend that you read through this documentation, then proceed to build
Kojto	71:53949e6131f6	965	and test a few example projects before you start designing your own device.
Kojto	71:53949e6131f6	966
Kojto	71:53949e6131f6	967	@n @section usb_device_api The device stack API
Kojto	71:53949e6131f6	968
Kojto	71:53949e6131f6	969	This section contains brief descriptions of the functions in the API. You will
Kojto	71:53949e6131f6	970	find detailed information on input and output parameters and return values by
Kojto	71:53949e6131f6	971	clicking on the hyperlinked function names. It is also a good idea to study
Kojto	71:53949e6131f6	972	the code in the USB demonstration projects.
Kojto	71:53949e6131f6	973
Kojto	71:53949e6131f6	974	Your application code must include one header file: @em em_usb.h.
Kojto	71:53949e6131f6	975
Kojto	71:53949e6131f6	976	All functions defined in the API can be called from within interrupt handlers.
Kojto	71:53949e6131f6	977
Kojto	71:53949e6131f6	978	The USB stack use a hardware timer to keep track of time. TIMER0 is the
Kojto	71:53949e6131f6	979	default choice, refer to @ref usb_device_conf for other possibilities.
Kojto	71:53949e6131f6	980	Your application must not use the selected timer.
Kojto	71:53949e6131f6	981
Kojto	71:53949e6131f6	982	<b>Pitfalls:</b>@n
Kojto	71:53949e6131f6	983	The USB peripheral will fill your receive buffers in quantities of WORD's
Kojto	71:53949e6131f6	984	(4 bytes). Transmit and receive buffers must be WORD aligned, in
Kojto	71:53949e6131f6	985	addition when allocating storage for receive buffers, round size up to
Kojto	71:53949e6131f6	986	next WORD boundary. If it is possible that the host will send more data
Kojto	71:53949e6131f6	987	than your device expects, round buffer size up to the next multiple of
Kojto	71:53949e6131f6	988	maxpacket size for the relevant endpoint to avoid data corruption.
Kojto	71:53949e6131f6	989
Kojto	71:53949e6131f6	990	Transmit buffers passed to @htmlonly USBD_Write() @endhtmlonly must be
Kojto	71:53949e6131f6	991	statically allocated because @htmlonly USBD_Write() @endhtmlonly only
Kojto	71:53949e6131f6	992	initiates the transfer. When the host decide to actually perform the
Kojto	71:53949e6131f6	993	transfer, your data must be available.
Kojto	71:53949e6131f6	994
Kojto	71:53949e6131f6	995	@n @ref USBD_Init() @n
Kojto	71:53949e6131f6	996	This function is called to register your device and all its properties with
Kojto	71:53949e6131f6	997	the device stack. The application must fill in a @ref USBD_Init_TypeDef
Kojto	71:53949e6131f6	998	structure prior to calling. Refer to @ref DeviceInitCallbacks for the
Kojto	71:53949e6131f6	999	optional callback functions defined within this structure. When this
Kojto	71:53949e6131f6	1000	function has been called your device is ready to be enumerated by the USB
Kojto	71:53949e6131f6	1001	host.
Kojto	71:53949e6131f6	1002
Kojto	71:53949e6131f6	1003	@ref USBD_Read(), @ref USBD_Write() @n
Kojto	71:53949e6131f6	1004	These functions initiate data transfers.
Kojto	71:53949e6131f6	1005	@n @htmlonly USBD_Read() @endhtmlonly initiate a transfer of data @em
Kojto	71:53949e6131f6	1006	from host @em to device (an @em OUT transfer in USB terminology).
Kojto	71:53949e6131f6	1007	@n @htmlonly USBD_Write() @endhtmlonly initiate a transfer of data @em from
Kojto	71:53949e6131f6	1008	device @em to host (an @em IN transfer).
Kojto	71:53949e6131f6	1009
Kojto	71:53949e6131f6	1010	When the USB host actually performs the transfer, your application will be
Kojto	71:53949e6131f6	1011	notified by means of a callback function which you provide (optionally).
Kojto	71:53949e6131f6	1012	Refer to @ref TransferCallback for details of the callback functionality.
Kojto	71:53949e6131f6	1013
Kojto	71:53949e6131f6	1014	@ref USBD_AbortTransfer(), @ref USBD_AbortAllTransfers() @n
Kojto	71:53949e6131f6	1015	These functions terminate transfers that are initiated, but has not yet
Kojto	71:53949e6131f6	1016	taken place. If a transfer is initiated with @htmlonly USBD_Read()
Kojto	71:53949e6131f6	1017	or USBD_Write(), @endhtmlonly but the USB host never actually peform
Kojto	71:53949e6131f6	1018	the transfers, these functions will deactivate the transfer setup to make
Kojto	71:53949e6131f6	1019	the USB device endpoint hardware ready for new (and potentially) different
Kojto	71:53949e6131f6	1020	transfers.
Kojto	71:53949e6131f6	1021
Kojto	71:53949e6131f6	1022	@ref USBD_Connect(), @ref USBD_Disconnect() @n
Kojto	71:53949e6131f6	1023	These functions turns the data-line (D+ or D-) pullup on or off. They can be
Kojto	71:53949e6131f6	1024	used to force reenumeration. It's good practice to delay at least one second
Kojto	71:53949e6131f6	1025	between @htmlonly USBD_Disconnect() and USBD_Connect() @endhtmlonly
Kojto	71:53949e6131f6	1026	to allow the USB host to unload the currently active device driver.
Kojto	71:53949e6131f6	1027
Kojto	71:53949e6131f6	1028	@ref USBD_EpIsBusy() @n
Kojto	71:53949e6131f6	1029	Check if an endpoint is busy.
Kojto	71:53949e6131f6	1030
Kojto	71:53949e6131f6	1031	@ref USBD_StallEp(), @ref USBD_UnStallEp() @n
Kojto	71:53949e6131f6	1032	These functions stalls or un-stalls an endpoint. This functionality may not
Kojto	71:53949e6131f6	1033	be needed by your application, but the USB device stack use them in response
Kojto	71:53949e6131f6	1034	to standard setup commands SET_FEATURE and CLEAR_FEATURE. They may be useful
Kojto	71:53949e6131f6	1035	when implementing some USB classes, e.g. a mass storage device use them
Kojto	71:53949e6131f6	1036	extensively.
Kojto	71:53949e6131f6	1037
Kojto	71:53949e6131f6	1038	@ref USBD_RemoteWakeup() @n
Kojto	71:53949e6131f6	1039	Used in SUSPENDED state (see @ref USB_Status_TypeDef) to signal resume to
Kojto	71:53949e6131f6	1040	host. It's the applications responsibility to adhere to the USB standard
Kojto	71:53949e6131f6	1041	which states that a device can not signal resume before it has been
Kojto	71:53949e6131f6	1042	SUSPENDED for at least 5 ms. The function will also check the configuration
Kojto	71:53949e6131f6	1043	descriptor defined by the application to see if it is legal for the device
Kojto	71:53949e6131f6	1044	to signal resume.
Kojto	71:53949e6131f6	1045
Kojto	71:53949e6131f6	1046	@ref USBD_GetUsbState() @n
Kojto	71:53949e6131f6	1047	Returns the device USB state (see @ref USBD_State_TypeDef). Refer to
Kojto	71:53949e6131f6	1048	Figure 9-1. "Device State Diagram" in the USB revision 2.0 specification.
Kojto	71:53949e6131f6	1049
Kojto	71:53949e6131f6	1050	@ref USBD_GetUsbStateName() @n
Kojto	71:53949e6131f6	1051	Returns a text string naming a given USB device state.
Kojto	71:53949e6131f6	1052
Kojto	71:53949e6131f6	1053	@ref USBD_SafeToEnterEM2() @n
Kojto	71:53949e6131f6	1054	Check if it is ok to enter energy mode EM2. Refer to the
Kojto	71:53949e6131f6	1055	@ref usb_device_powersave section for more information.
Kojto	71:53949e6131f6	1056
Kojto	71:53949e6131f6	1057	@n @anchor TransferCallback <b>The transfer complete callback function:</b> @n
Kojto	71:53949e6131f6	1058	@n USB_XferCompleteCb_TypeDef() is called when a transfer completes. It is
Kojto	71:53949e6131f6	1059	called with three parameters, the status of the transfer, the number of
Kojto	71:53949e6131f6	1060	bytes transferred and the number of bytes remaining. It may not always be
Kojto	71:53949e6131f6	1061	needed to have a callback on transfer completion, but you should keep in
Kojto	71:53949e6131f6	1062	mind that a transfer may be aborted when you least expect it. A transfer
Kojto	71:53949e6131f6	1063	will be aborted if host stalls the endpoint, if host resets your device, if
Kojto	71:53949e6131f6	1064	host unconfigures your device or if you unplug your device cable and the
Kojto	71:53949e6131f6	1065	device is selfpowered.
Kojto	71:53949e6131f6	1066	@htmlonly USB_XferCompleteCb_TypeDef() @endhtmlonly is also called if your
Kojto	71:53949e6131f6	1067	application use @htmlonly USBD_AbortTransfer() or USBD_AbortAllTransfers()
Kojto	71:53949e6131f6	1068	@endhtmlonly calls.
Kojto	71:53949e6131f6	1069	@note This callback is called from within an interrupt handler with
Kojto	71:53949e6131f6	1070	interrupts disabled.
Kojto	71:53949e6131f6	1071
Kojto	71:53949e6131f6	1072	@n @anchor DeviceInitCallbacks <b>Optional callbacks passed to the stack via
Kojto	71:53949e6131f6	1073	the @ref USBD_Init() function:</b> @n
Kojto	71:53949e6131f6	1074	@n These callbacks are all optional, and it is up to the application
Kojto	71:53949e6131f6	1075	programmer to decide if the application needs the functionality they
Kojto	71:53949e6131f6	1076	provide.
Kojto	71:53949e6131f6	1077	@note These callbacks are all called from within an interrupt handler
Kojto	71:53949e6131f6	1078	with interrupts disabled.
Kojto	71:53949e6131f6	1079
Kojto	71:53949e6131f6	1080	USBD_UsbResetCb_TypeDef() is called each time reset signalling is sensed on
Kojto	71:53949e6131f6	1081	the USB wire.
Kojto	71:53949e6131f6	1082
Kojto	71:53949e6131f6	1083	@n USBD_SofIntCb_TypeDef() is called with framenumber as a parameter on
Kojto	71:53949e6131f6	1084	each SOF interrupt.
Kojto	71:53949e6131f6	1085
Kojto	71:53949e6131f6	1086	@n USBD_DeviceStateChangeCb_TypeDef() is called whenever the device state
Kojto	71:53949e6131f6	1087	change. Useful for detecting e.g. SUSPENDED state change in order to reduce
Kojto	71:53949e6131f6	1088	current consumption of buspowered devices. The USB HID keyboard example
Kojto	71:53949e6131f6	1089	project has a good example on how to use this callback.
Kojto	71:53949e6131f6	1090
Kojto	71:53949e6131f6	1091	@n USBD_IsSelfPoweredCb_TypeDef() is called by the device stack when host
Kojto	71:53949e6131f6	1092	queries the device with a standard setup GET_STATUS command to check if the
Kojto	71:53949e6131f6	1093	device is currently selfpowered or buspowered. This feature is only
Kojto	71:53949e6131f6	1094	applicable on selfpowered devices which also works when only buspower is
Kojto	71:53949e6131f6	1095	available.
Kojto	71:53949e6131f6	1096
Kojto	71:53949e6131f6	1097	@n USBD_SetupCmdCb_TypeDef() is called each time a setup command is
Kojto	71:53949e6131f6	1098	received from host. Use this callback to override or extend the default
Kojto	71:53949e6131f6	1099	handling of standard setup commands, and to implement class or vendor
Kojto	71:53949e6131f6	1100	specific setup commands. The USB HID keyboard example project has a good
Kojto	71:53949e6131f6	1101	example on how to use this callback.
Kojto	71:53949e6131f6	1102
Kojto	71:53949e6131f6	1103	@n <b>Utility functions:</b> @n
Kojto	71:53949e6131f6	1104	@n USB_PUTCHAR() Transmit a single char on the debug serial port.
Kojto	71:53949e6131f6	1105	@n @n USB_PUTS() Transmit a zero terminated string on the debug serial port.
Kojto	71:53949e6131f6	1106	@n @n USB_PRINTF() Transmit "printf" formated data on the debug serial port.
Kojto	71:53949e6131f6	1107	@n @n USB_GetErrorMsgString() Return an error message string for a given
Kojto	71:53949e6131f6	1108	error code.
Kojto	71:53949e6131f6	1109	@n @n USB_PrintErrorMsgString() Format and print a text string given an
Kojto	71:53949e6131f6	1110	error code, prepends an optional user supplied leader string.
Kojto	71:53949e6131f6	1111	@n @n USBTIMER_DelayMs() Active wait millisecond delay function. Can also be
Kojto	71:53949e6131f6	1112	used inside interrupt handlers.
Kojto	71:53949e6131f6	1113	@n @n USBTIMER_DelayUs() Active wait microsecond delay function. Can also be
Kojto	71:53949e6131f6	1114	used inside interrupt handlers.
Kojto	71:53949e6131f6	1115	@n @n USBTIMER_Init() Initialize the timer system. Called by @htmlonly
Kojto	71:53949e6131f6	1116	USBD_Init(), @endhtmlonly but your application must call it again to
Kojto	71:53949e6131f6	1117	reinitialize whenever you change the HFPERCLK frequency.
Kojto	71:53949e6131f6	1118	@n @n USBTIMER_Start() Start a timer. You can configure the USB device stack
Kojto	71:53949e6131f6	1119	to provide any number of timers. The timers have 1 ms resolution, your
Kojto	71:53949e6131f6	1120	application is notified of timeout by means of a callback.
Kojto	71:53949e6131f6	1121	@n @n USBTIMER_Stop() Stop a timer.
Kojto	71:53949e6131f6	1122
Kojto	71:53949e6131f6	1123	@n @section usb_device_conf Configuring the device stack
Kojto	71:53949e6131f6	1124
Kojto	71:53949e6131f6	1125	Your application must provide a header file named @em usbconfig.h. This file
Kojto	71:53949e6131f6	1126	must contain the following \#define's:@n @n
Kojto	71:53949e6131f6	1127	@verbatim
Kojto	71:53949e6131f6	1128	#define USB_DEVICE // Compile the stack for device mode.
Kojto	71:53949e6131f6	1129	#define NUM_EP_USED n // Your application use 'n' endpoints in
Kojto	71:53949e6131f6	1130	// addition to endpoint 0. @endverbatim
Kojto	71:53949e6131f6	1131
Kojto	71:53949e6131f6	1132	@n @em usbconfig.h may define the following items: @n @n
Kojto	71:53949e6131f6	1133	@verbatim
Kojto	71:53949e6131f6	1134	#define NUM_APP_TIMERS n // Your application needs 'n' timers
Kojto	71:53949e6131f6	1135
Kojto	71:53949e6131f6	1136	#define DEBUG_USB_API // Turn on API debug diagnostics.
Kojto	71:53949e6131f6	1137
Kojto	71:53949e6131f6	1138	// Some utility functions in the API needs printf. These
Kojto	71:53949e6131f6	1139	// functions have "print" in their name. This macro enables
Kojto	71:53949e6131f6	1140	// these functions.
Kojto	71:53949e6131f6	1141	#define USB_USE_PRINTF // Enable utility print functions.
Kojto	71:53949e6131f6	1142
Kojto	71:53949e6131f6	1143	// Define a function for transmitting a single char on the serial port.
Kojto	71:53949e6131f6	1144	extern int RETARGET_WriteChar(char c);
Kojto	71:53949e6131f6	1145	#define USER_PUTCHAR RETARGET_WriteChar
Kojto	71:53949e6131f6	1146
Kojto	71:53949e6131f6	1147	#define USB_TIMER USB_TIMERn // Select which hardware timer the USB stack
Kojto	71:53949e6131f6	1148	// is allowed to use. Valid values are n=0,1,2...
Kojto	71:53949e6131f6	1149	// corresponding to TIMER0, TIMER1, ...
Kojto	71:53949e6131f6	1150	// If not specified, TIMER0 is used
Kojto	71:53949e6131f6	1151
Kojto	71:53949e6131f6	1152	#define USB_VBUS_SWITCH_NOT_PRESENT // Hardware does not have a VBUS switch
Kojto	71:53949e6131f6	1153
Kojto	71:53949e6131f6	1154	#define USB_CORECLK_HFRCO // Devices supporting crystal-less USB can use
Kojto	71:53949e6131f6	1155	// HFRCO as core clock, default is HFXO
Kojto	71:53949e6131f6	1156	@endverbatim
Kojto	71:53949e6131f6	1157
Kojto	71:53949e6131f6	1158	@n You are strongly encouraged to start application development with DEBUG_USB_API
Kojto	71:53949e6131f6	1159	turned on. When DEBUG_USB_API is turned on and USER_PUTCHAR is defined, useful
Kojto	71:53949e6131f6	1160	debugging information will be output on the development kit serial port.
Kojto	71:53949e6131f6	1161	Compiling with the DEBUG_EFM_USER flag will also enable all asserts
Kojto	71:53949e6131f6	1162	in both @em emlib and in the USB stack. If asserts are enabled and
Kojto	71:53949e6131f6	1163	USER_PUTCHAR defined, assert texts will be output on the serial port.
Kojto	71:53949e6131f6	1164
Kojto	71:53949e6131f6	1165	You application must include @em retargetserial.c if DEBUG_USB_API is defined
Kojto	71:53949e6131f6	1166	and @em retargetio.c if USB_USE_PRINTF is defined.
Kojto	71:53949e6131f6	1167	These files reside in the @em drivers
Kojto	71:53949e6131f6	1168	directory in the software package for your development board. Refer to
Kojto	71:53949e6131f6	1169	@ref usb_device_powersave for energy-saving mode configurations.
Kojto	71:53949e6131f6	1170
Kojto	71:53949e6131f6	1171	@n @section usb_device_powersave Energy-saving modes
Kojto	71:53949e6131f6	1172
Kojto	71:53949e6131f6	1173	The device stack provides two energy saving levels. The first level is to
Kojto	71:53949e6131f6	1174	set the USB peripheral in energy saving mode, the next level is to enter
Kojto	71:53949e6131f6	1175	Energy Mode 2 (EM2). These energy saving modes can be applied when the device
Kojto	71:53949e6131f6	1176	is suspended by the USB host, or when when the device is not connected to a
Kojto	71:53949e6131f6	1177	USB host.
Kojto	71:53949e6131f6	1178	In addition to this an application can use energy modes EM1 and EM2. There
Kojto	71:53949e6131f6	1179	are no restrictions on when EM1 can be entered, EM2 can only be entered
Kojto	71:53949e6131f6	1180	when the USB device is suspended or detached from host.
Kojto	71:53949e6131f6	1181
Kojto	71:53949e6131f6	1182	Energy-saving modes are selected with a \#define in @em usbconfig.h, default
Kojto	71:53949e6131f6	1183	selection is to not use any energy saving modes.@n @n
Kojto	71:53949e6131f6	1184	@verbatim
Kojto	71:53949e6131f6	1185	#define USB_PWRSAVE_MODE (USB_PWRSAVE_MODE_ONSUSPEND \| USB_PWRSAVE_MODE_ENTEREM2)@endverbatim
Kojto	71:53949e6131f6	1186
Kojto	71:53949e6131f6	1187	There are three flags available, the flags can be or'ed together as shown above.
Kojto	71:53949e6131f6	1188
Kojto	71:53949e6131f6	1189	<b>\#define USB_PWRSAVE_MODE_ONSUSPEND</b>@n Set USB peripheral in low power
Kojto	71:53949e6131f6	1190	mode on suspend.
Kojto	71:53949e6131f6	1191
Kojto	71:53949e6131f6	1192	<b>\#define USB_PWRSAVE_MODE_ONVBUSOFF</b>@n Set USB peripheral in low power
Kojto	71:53949e6131f6	1193	mode when not attached to a host. This mode assumes that the internal voltage
Kojto	71:53949e6131f6	1194	regulator is used and that the VREGI pin of the chip is connected to VBUS.
Kojto	71:53949e6131f6	1195	This option can not be used with bus-powered devices.
Kojto	71:53949e6131f6	1196
Kojto	71:53949e6131f6	1197	<b>\#define USB_PWRSAVE_MODE_ENTEREM2</b>@n Enter EM2 when USB peripheral is
Kojto	71:53949e6131f6	1198	in low power mode.
Kojto	71:53949e6131f6	1199
Kojto	71:53949e6131f6	1200	When the USB peripheral is set in low power mode, it must be clocked by a 32kHz
Kojto	71:53949e6131f6	1201	clock. Both LFXO and LFRCO can be used, but only LFXO guarantee USB specification
Kojto	71:53949e6131f6	1202	compliance. Selection is done with a \#define in @em usbconfig.h.@n @n
Kojto	71:53949e6131f6	1203	@verbatim
Kojto	71:53949e6131f6	1204	#define USB_USBC_32kHz_CLK USB_USBC_32kHz_CLK_LFXO @endverbatim
Kojto	71:53949e6131f6	1205	Two flags are available, <b>USB_USBC_32kHz_CLK_LFXO</b> and
Kojto	71:53949e6131f6	1206	<b>USB_USBC_32kHz_CLK_LFRCO</b>. <b>USB_USBC_32kHz_CLK_LFXO</b> is selected
Kojto	71:53949e6131f6	1207	by default.
Kojto	71:53949e6131f6	1208
Kojto	71:53949e6131f6	1209	The USB HID keyboard and Mass Storage device example projects demonstrate
Kojto	71:53949e6131f6	1210	different energy-saving modes.
Kojto	71:53949e6131f6	1211
Kojto	71:53949e6131f6	1212	<b>Example 1:</b>
Kojto	71:53949e6131f6	1213	Leave all energy saving to the stack, the device enters EM2 on suspend and
Kojto	71:53949e6131f6	1214	when detached from host. @n
Kojto	71:53949e6131f6	1215	@verbatim
Kojto	71:53949e6131f6	1216	In usbconfig.h:
Kojto	71:53949e6131f6	1217
Kojto	71:53949e6131f6	1218	#define USB_PWRSAVE_MODE (USB_PWRSAVE_MODE_ONSUSPEND \| USB_PWRSAVE_MODE_ONVBUSOFF \| USB_PWRSAVE_MODE_ENTEREM2)
Kojto	71:53949e6131f6	1219	@endverbatim
Kojto	71:53949e6131f6	1220
Kojto	71:53949e6131f6	1221	@n <b>Example 2:</b>
Kojto	71:53949e6131f6	1222	Let the stack control energy saving in the USB periheral but let your
Kojto	71:53949e6131f6	1223	application control energy modes EM1 and EM2. @n
Kojto	71:53949e6131f6	1224	@verbatim
Kojto	71:53949e6131f6	1225	In usbconfig.h:
Kojto	71:53949e6131f6	1226
Kojto	71:53949e6131f6	1227	#define USB_PWRSAVE_MODE (USB_PWRSAVE_MODE_ONSUSPEND \| USB_PWRSAVE_MODE_ONVBUSOFF)
Kojto	71:53949e6131f6	1228
Kojto	71:53949e6131f6	1229	In application code:
Kojto	71:53949e6131f6	1230
Kojto	71:53949e6131f6	1231	if ( USBD_SafeToEnterEM2() )
Kojto	71:53949e6131f6	1232	EMU_EnterEM2(true);
Kojto	71:53949e6131f6	1233	else
Kojto	71:53949e6131f6	1234	EMU_EnterEM1(); @endverbatim
Kojto	71:53949e6131f6	1235
Kojto	71:53949e6131f6	1236	@n @section usb_device_example1 Vendor unique device example application
Kojto	71:53949e6131f6	1237
Kojto	71:53949e6131f6	1238	This example represents the most simple USB device imaginable. It's purpose
Kojto	71:53949e6131f6	1239	is to turn user LED's on or off under control of vendor unique setup commands.
Kojto	71:53949e6131f6	1240	The device will rely on @em libusb device driver on the host, a host
Kojto	71:53949e6131f6	1241	application @em EFM32-LedApp.exe is bundled with the example.
Kojto	71:53949e6131f6	1242
Kojto	71:53949e6131f6	1243	The main() is really simple ! @n @n
Kojto	71:53949e6131f6	1244	@verbatim
Kojto	71:53949e6131f6	1245	#include "em_usb.h"
Kojto	71:53949e6131f6	1246
Kojto	71:53949e6131f6	1247	#include "descriptors.h"
Kojto	71:53949e6131f6	1248
Kojto	71:53949e6131f6	1249	int main( void )
Kojto	71:53949e6131f6	1250	{
Kojto	71:53949e6131f6	1251	BSP_Init(BSP_INIT_DEFAULT); // Initialize DK board register access
Kojto	71:53949e6131f6	1252	CMU_ClockSelectSet( cmuClock_HF, cmuSelect_HFXO );
Kojto	71:53949e6131f6	1253	BSP_LedsSet(0); // Turn off all LED's
Kojto	71:53949e6131f6	1254
Kojto	71:53949e6131f6	1255	ConsoleDebugInit(); // Initialize UART for debug diagnostics
Kojto	71:53949e6131f6	1256
Kojto	71:53949e6131f6	1257	USB_PUTS( "\nEFM32 USB LED Vendor Unique Device example\n" );
Kojto	71:53949e6131f6	1258
Kojto	71:53949e6131f6	1259	USBD_Init( &initstruct ); // GO !
Kojto	71:53949e6131f6	1260
Kojto	71:53949e6131f6	1261	//When using a debugger it is pratical to uncomment the following three
Kojto	71:53949e6131f6	1262	//lines to force host to re-enumerate the device.
Kojto	71:53949e6131f6	1263
Kojto	71:53949e6131f6	1264	//USBD_Disconnect();
Kojto	71:53949e6131f6	1265	//USBTIMER_DelayMs( 1000 );
Kojto	71:53949e6131f6	1266	//USBD_Connect();
Kojto	71:53949e6131f6	1267
Kojto	71:53949e6131f6	1268	for (;;) {}
Kojto	71:53949e6131f6	1269	} @endverbatim
Kojto	71:53949e6131f6	1270
Kojto	71:53949e6131f6	1271	@n Configure the device stack in <em>usbconfig.h</em>: @n @n
Kojto	71:53949e6131f6	1272	@verbatim
Kojto	71:53949e6131f6	1273	#define USB_DEVICE // Compile stack for device mode.
Kojto	71:53949e6131f6	1274
Kojto	71:53949e6131f6	1275	// **************************************************************************
Kojto	71:53949e6131f6	1276
Kojto	71:53949e6131f6	1277	Specify number of endpoints used (in addition to EP0).
Kojto	71:53949e6131f6	1278
Kojto	71:53949e6131f6	1279	*****************************************************************************
Kojto	71:53949e6131f6	1280	#define NUM_EP_USED 0 // EP0 is the only endpoint used.
Kojto	71:53949e6131f6	1281
Kojto	71:53949e6131f6	1282	// **************************************************************************
Kojto	71:53949e6131f6	1283
Kojto	71:53949e6131f6	1284	Configure serial port debug output.
Kojto	71:53949e6131f6	1285
Kojto	71:53949e6131f6	1286	*****************************************************************************
Kojto	71:53949e6131f6	1287	// Prototype a function for transmitting a single char on the serial port.
Kojto	71:53949e6131f6	1288	extern int RETARGET_WriteChar(char c);
Kojto	71:53949e6131f6	1289	#define USER_PUTCHAR RETARGET_WriteChar
Kojto	71:53949e6131f6	1290
Kojto	71:53949e6131f6	1291	// Enable debug diagnostics from API functions (illegal input params etc.)
Kojto	71:53949e6131f6	1292	#define DEBUG_USB_API @endverbatim
Kojto	71:53949e6131f6	1293
Kojto	71:53949e6131f6	1294	@n Define device properties and fill in USB initstruct in
Kojto	71:53949e6131f6	1295	<em>descriptors.h</em>: @n @n
Kojto	71:53949e6131f6	1296	@verbatim
Kojto	71:53949e6131f6	1297	EFM32_ALIGN(4)
Kojto	71:53949e6131f6	1298	static const USB_DeviceDescriptor_TypeDef deviceDesc __attribute__ ((aligned(4))) =
Kojto	71:53949e6131f6	1299	{
Kojto	71:53949e6131f6	1300	.bLength = USB_DEVICE_DESCSIZE,
Kojto	71:53949e6131f6	1301	.bDescriptorType = USB_DEVICE_DESCRIPTOR,
Kojto	71:53949e6131f6	1302	.bcdUSB = 0x0200,
Kojto	71:53949e6131f6	1303	.bDeviceClass = 0xFF,
Kojto	71:53949e6131f6	1304	.bDeviceSubClass = 0,
Kojto	71:53949e6131f6	1305	.bDeviceProtocol = 0,
Kojto	71:53949e6131f6	1306	.bMaxPacketSize0 = USB_FS_CTRL_EP_MAXSIZE,
Kojto	71:53949e6131f6	1307	.idVendor = 0x10C4,
Kojto	71:53949e6131f6	1308	.idProduct = 0x0001,
Kojto	71:53949e6131f6	1309	.bcdDevice = 0x0000,
Kojto	71:53949e6131f6	1310	.iManufacturer = 1,
Kojto	71:53949e6131f6	1311	.iProduct = 2,
Kojto	71:53949e6131f6	1312	.iSerialNumber = 3,
Kojto	71:53949e6131f6	1313	.bNumConfigurations = 1
Kojto	71:53949e6131f6	1314	};
Kojto	71:53949e6131f6	1315
Kojto	71:53949e6131f6	1316	EFM32_ALIGN(4)
Kojto	71:53949e6131f6	1317	static const uint8_t configDesc[] __attribute__ ((aligned(4)))=
Kojto	71:53949e6131f6	1318	{
Kojto	71:53949e6131f6	1319	// * Configuration descriptor *
Kojto	71:53949e6131f6	1320	USB_CONFIG_DESCSIZE, // bLength
Kojto	71:53949e6131f6	1321	USB_CONFIG_DESCRIPTOR, // bDescriptorType
Kojto	71:53949e6131f6	1322	USB_CONFIG_DESCSIZE + // wTotalLength (LSB)
Kojto	71:53949e6131f6	1323	USB_INTERFACE_DESCSIZE,
Kojto	71:53949e6131f6	1324	(USB_CONFIG_DESCSIZE + // wTotalLength (MSB)
Kojto	71:53949e6131f6	1325	USB_INTERFACE_DESCSIZE)>>8,
Kojto	71:53949e6131f6	1326	1, // bNumInterfaces
Kojto	71:53949e6131f6	1327	1, // bConfigurationValue
Kojto	71:53949e6131f6	1328	0, // iConfiguration
Kojto	71:53949e6131f6	1329	CONFIG_DESC_BM_RESERVED_D7 \| // bmAttrib: Self powered
Kojto	71:53949e6131f6	1330	CONFIG_DESC_BM_SELFPOWERED,
Kojto	71:53949e6131f6	1331	CONFIG_DESC_MAXPOWER_mA( 100 ), // bMaxPower: 100 mA
Kojto	71:53949e6131f6	1332
Kojto	71:53949e6131f6	1333	// * Interface descriptor *
Kojto	71:53949e6131f6	1334	USB_INTERFACE_DESCSIZE, // bLength
Kojto	71:53949e6131f6	1335	USB_INTERFACE_DESCRIPTOR, // bDescriptorType
Kojto	71:53949e6131f6	1336	0, // bInterfaceNumber
Kojto	71:53949e6131f6	1337	0, // bAlternateSetting
Kojto	71:53949e6131f6	1338	NUM_EP_USED, // bNumEndpoints
Kojto	71:53949e6131f6	1339	0xFF, // bInterfaceClass
Kojto	71:53949e6131f6	1340	0, // bInterfaceSubClass
Kojto	71:53949e6131f6	1341	0, // bInterfaceProtocol
Kojto	71:53949e6131f6	1342	0, // iInterface
Kojto	71:53949e6131f6	1343	};
Kojto	71:53949e6131f6	1344
Kojto	71:53949e6131f6	1345	STATIC_CONST_STRING_DESC_LANGID( langID, 0x04, 0x09 );
Kojto	71:53949e6131f6	1346	STATIC_CONST_STRING_DESC( iManufacturer, 'E','n','e','r','g','y',' ', \
Kojto	71:53949e6131f6	1347	'M','i','c','r','o',' ','A','S' );
Kojto	71:53949e6131f6	1348	STATIC_CONST_STRING_DESC( iProduct , 'V','e','n','d','o','r',' ', \
Kojto	71:53949e6131f6	1349	'U','n','i','q','u','e',' ', \
Kojto	71:53949e6131f6	1350	'L','E','D',' ', \
Kojto	71:53949e6131f6	1351	'D','e','v','i','c','e' );
Kojto	71:53949e6131f6	1352	STATIC_CONST_STRING_DESC( iSerialNumber, '0','0','0','0','0','0', \
Kojto	71:53949e6131f6	1353	'0','0','1','2','3','4' );
Kojto	71:53949e6131f6	1354
Kojto	71:53949e6131f6	1355	static const void * const strings[] =
Kojto	71:53949e6131f6	1356	{
Kojto	71:53949e6131f6	1357	&langID,
Kojto	71:53949e6131f6	1358	&iManufacturer,
Kojto	71:53949e6131f6	1359	&iProduct,
Kojto	71:53949e6131f6	1360	&iSerialNumber
Kojto	71:53949e6131f6	1361	};
Kojto	71:53949e6131f6	1362
Kojto	71:53949e6131f6	1363	// Endpoint buffer sizes
Kojto	71:53949e6131f6	1364	// 1 = single buffer, 2 = double buffering, 3 = tripple buffering ...
Kojto	71:53949e6131f6	1365	static const uint8_t bufferingMultiplier[ NUM_EP_USED + 1 ] = { 1 };
Kojto	71:53949e6131f6	1366
Kojto	71:53949e6131f6	1367	static const USBD_Callbacks_TypeDef callbacks =
Kojto	71:53949e6131f6	1368	{
Kojto	71:53949e6131f6	1369	.usbReset = NULL,
Kojto	71:53949e6131f6	1370	.usbStateChange = NULL,
Kojto	71:53949e6131f6	1371	.setupCmd = SetupCmd,
Kojto	71:53949e6131f6	1372	.isSelfPowered = NULL,
Kojto	71:53949e6131f6	1373	.sofInt = NULL
Kojto	71:53949e6131f6	1374	};
Kojto	71:53949e6131f6	1375
Kojto	71:53949e6131f6	1376	static const USBD_Init_TypeDef initstruct =
Kojto	71:53949e6131f6	1377	{
Kojto	71:53949e6131f6	1378	.deviceDescriptor = &deviceDesc,
Kojto	71:53949e6131f6	1379	.configDescriptor = configDesc,
Kojto	71:53949e6131f6	1380	.stringDescriptors = strings,
Kojto	71:53949e6131f6	1381	.numberOfStrings = sizeof(strings)/sizeof(void*),
Kojto	71:53949e6131f6	1382	.callbacks = &callbacks,
Kojto	71:53949e6131f6	1383	.bufferingMultiplier = bufferingMultiplier
Kojto	71:53949e6131f6	1384	}; @endverbatim
Kojto	71:53949e6131f6	1385
Kojto	71:53949e6131f6	1386	@n Now we have to implement vendor unique USB setup commands to control the
Kojto	71:53949e6131f6	1387	LED's (see callbacks variable above). Notice that the buffer variable below is
Kojto	71:53949e6131f6	1388	statically allocated because @htmlonly USBD_Write() @endhtmlonly only
Kojto	71:53949e6131f6	1389	initiates the transfer. When the host actually performs the transfer, the
Kojto	71:53949e6131f6	1390	SetupCmd() function will have returned ! @n @n
Kojto	71:53949e6131f6	1391
Kojto	71:53949e6131f6	1392	@verbatim
Kojto	71:53949e6131f6	1393	#define VND_GET_LEDS 0x10
Kojto	71:53949e6131f6	1394	#define VND_SET_LED 0x11
Kojto	71:53949e6131f6	1395
Kojto	71:53949e6131f6	1396	static int SetupCmd( const USB_Setup_TypeDef *setup )
Kojto	71:53949e6131f6	1397	{
Kojto	71:53949e6131f6	1398	int retVal;
Kojto	71:53949e6131f6	1399	uint16_t leds;
Kojto	71:53949e6131f6	1400	static uint32_t buffer;
Kojto	71:53949e6131f6	1401	uint8_t pBuffer = (uint8_t)&buffer;
Kojto	71:53949e6131f6	1402
Kojto	71:53949e6131f6	1403	retVal = USB_STATUS_REQ_UNHANDLED;
Kojto	71:53949e6131f6	1404
Kojto	71:53949e6131f6	1405	if ( setup->Type == USB_SETUP_TYPE_VENDOR )
Kojto	71:53949e6131f6	1406	{
Kojto	71:53949e6131f6	1407	switch ( setup->bRequest )
Kojto	71:53949e6131f6	1408	{
Kojto	71:53949e6131f6	1409	case VND_GET_LEDS:
Kojto	71:53949e6131f6	1410	// ********************
Kojto	71:53949e6131f6	1411	*pBuffer = BSP_LedsGet() & 0x1F;
Kojto	71:53949e6131f6	1412	retVal = USBD_Write( 0, pBuffer, setup->wLength, NULL );
Kojto	71:53949e6131f6	1413	break;
Kojto	71:53949e6131f6	1414
Kojto	71:53949e6131f6	1415	case VND_SET_LED:
Kojto	71:53949e6131f6	1416	// ********************
Kojto	71:53949e6131f6	1417	leds = DVK_getLEDs() & 0x1F;
Kojto	71:53949e6131f6	1418	if ( setup->wValue )
Kojto	71:53949e6131f6	1419	{
Kojto	71:53949e6131f6	1420	leds \|= LED0 << setup->wIndex;
Kojto	71:53949e6131f6	1421	}
Kojto	71:53949e6131f6	1422	else
Kojto	71:53949e6131f6	1423	{
Kojto	71:53949e6131f6	1424	leds &= ~( LED0 << setup->wIndex );
Kojto	71:53949e6131f6	1425	}
Kojto	71:53949e6131f6	1426	BSP_LedsSet( leds );
Kojto	71:53949e6131f6	1427	retVal = USB_STATUS_OK;
Kojto	71:53949e6131f6	1428	break;
Kojto	71:53949e6131f6	1429	}
Kojto	71:53949e6131f6	1430	}
Kojto	71:53949e6131f6	1431
Kojto	71:53949e6131f6	1432	return retVal;
Kojto	71:53949e6131f6	1433	}@endverbatim
Kojto	71:53949e6131f6	1434
Kojto	71:53949e6131f6	1435	* @}**************************************************************************/
Kojto	71:53949e6131f6	1436
Kojto	71:53949e6131f6	1437	#endif /* defined( USB_DEVICE ) */
Kojto	71:53949e6131f6	1438	#endif /* defined( USB_PRESENT ) && ( USB_COUNT == 1 ) */

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Type:	Library
Created:	11 May 2018
Imports:	1
Forks:	0
Commits:	73
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targets/TARGET_Silicon_Labs/src/em_usbd.c@71:53949e6131f6, 2017-07-27 (annotated)

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