Andy A
USB device stack - Added support for the logo/windows key to USB keyboard.
Fork of
USBDevice
by 
mbed official
USBDevice/TARGET_Silicon_Labs/src/em_usbhal.c
- Committer:
- mbed_official
- Date:
- 2015-08-13
- Revision:
- 59:2af474687369
File content as of revision 59:2af474687369:
/**************************************************************************//**
* @file em_usbhal.c
* @brief USB protocol stack library, low level USB peripheral access.
* @version 3.20.14
******************************************************************************
* @section License
* <b>(C) Copyright 2014 Silicon Labs, http://www.silabs.com</b>
*******************************************************************************
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*
******************************************************************************/
#include "em_device.h"
#if defined( USB_PRESENT ) && ( USB_COUNT == 1 )
#include "em_usb.h"
#if defined( USB_DEVICE ) || defined( USB_HOST )
#include "em_usbtypes.h"
#include "em_usbhal.h"
#if defined( USB_DEVICE )
#include "em_usbd.h"
#endif
#if defined( USB_HOST )
#include "em_usbh.h"
#endif
#include "em_cmu.h"
#include "em_gpio.h"
/** @cond DO_NOT_INCLUDE_WITH_DOXYGEN */
#define EPABORT_BREAK_LOOP_COUNT 15000 /* Approx. 100 ms */
/* NOTE: The sequence of error message strings must agree with the */
/* definition of USB_Status_TypeDef enum. */
static const char * const errMsg[] =
{
[ USB_STATUS_OK ] = "No errors",
[ -USB_STATUS_REQ_ERR ] = "Setup request error",
[ -USB_STATUS_EP_BUSY ] = "Endpoint is busy",
[ -USB_STATUS_REQ_UNHANDLED ] = "Setup request not handled",
[ -USB_STATUS_ILLEGAL ] = "Illegal operation attempted",
[ -USB_STATUS_EP_STALLED ] = "Endpoint is stalled",
[ -USB_STATUS_EP_ABORTED ] = "Transfer aborted",
[ -USB_STATUS_EP_ERROR ] = "Transfer error",
[ -USB_STATUS_EP_NAK ] = "Endpoint NAK",
[ -USB_STATUS_DEVICE_UNCONFIGURED ] = "Device is not configured",
[ -USB_STATUS_DEVICE_SUSPENDED ] = "Device is suspended",
[ -USB_STATUS_DEVICE_RESET ] = "Device has been reset",
[ -USB_STATUS_TIMEOUT ] = "Transfer timeout",
[ -USB_STATUS_DEVICE_REMOVED ] = "Device removed",
[ -USB_STATUS_HC_BUSY ] = "Host channel is busy",
[ -USB_STATUS_DEVICE_MALFUNCTION ] = "Device malfunction",
[ -USB_STATUS_PORT_OVERCURRENT ] = "VBUS overcurrent",
};
/** @endcond */
/***************************************************************************//**
* @brief
* Return an error message string for a given error code.
*
* @param[in] error
* Error code, see \ref USB_Status_TypeDef.
*
* @return
* Error message string pointer.
******************************************************************************/
char *USB_GetErrorMsgString( int error )
{
if ( error >= 0 )
return (char*)errMsg[ 0 ];
return (char*)errMsg[ -error ];
}
#if defined( USB_USE_PRINTF )
/***************************************************************************//**
* @brief
* Format and print a text string given an error code, prepends an optional user
* supplied leader string.
*
* @param[in] pre
* Optional leader string to prepend to error message string.
*
* @param[in] error
* Error code, see \ref USB_Status_TypeDef.
******************************************************************************/
void USB_PrintErrorMsgString( char *pre, int error )
{
if ( pre )
{
USB_PRINTF( "%s", pre );
}
if ( error > USB_STATUS_OK )
{
USB_PRINTF( "%d", error );
}
else
{
USB_PRINTF( "%s", USB_GetErrorMsgString( error ) );
}
}
#endif /* defined( USB_USE_PRINTF ) */
/** @cond DO_NOT_INCLUDE_WITH_DOXYGEN */
#if defined( DEBUG_EFM_USER )
static void PrintI( int i )
{
#if !defined ( USER_PUTCHAR )
(void)i;
#else
if ( i >= 10 )
{
PrintI( i / 10 );
}
DEBUG_USB_API_PUTCHAR( ( i % 10 ) + '0' );
#endif
}
void assertEFM( const char *file, int line )
{
#if !defined ( USER_PUTCHAR )
(void)file;
#endif
DEBUG_USB_API_PUTS( "\nASSERT " );
DEBUG_USB_API_PUTS( file );
DEBUG_USB_API_PUTCHAR( ' ' );
PrintI( line );
for(;;){}
}
#endif /* defined( DEBUG_EFM_USER ) */
#if defined ( USER_PUTCHAR )
void USB_Puts( const char *p )
{
while( *p )
USB_PUTCHAR( *p++ );
}
#endif /* defined ( USER_PUTCHAR ) */
void USBHAL_CoreReset( void )
{
USB->PCGCCTL &= ~USB_PCGCCTL_STOPPCLK;
USB->PCGCCTL &= ~(USB_PCGCCTL_PWRCLMP | USB_PCGCCTL_RSTPDWNMODULE);
/* Core Soft Reset */
USB->GRSTCTL |= USB_GRSTCTL_CSFTRST;
while ( USB->GRSTCTL & USB_GRSTCTL_CSFTRST ) {}
USBTIMER_DelayUs( 1 );
/* Wait for AHB master IDLE state. */
while ( !( USB->GRSTCTL & USB_GRSTCTL_AHBIDLE ) ) {}
}
#ifdef USB_DEVICE
void USBDHAL_Connect( void )
{
USB->DCTL &= ~( DCTL_WO_BITMASK | USB_DCTL_SFTDISCON );
}
USB_Status_TypeDef USBDHAL_CoreInit( uint32_t totalRxFifoSize,
uint32_t totalTxFifoSize )
{
uint8_t i, j;
uint16_t start, depth;
USBD_Ep_TypeDef *ep;
#if !defined( USB_VBUS_SWITCH_NOT_PRESENT )
CMU_ClockEnable( cmuClock_GPIO, true );
GPIO_PinModeSet( gpioPortF, 5, gpioModePushPull, 0 ); /* Enable VBUSEN pin */
USB->ROUTE = USB_ROUTE_PHYPEN | USB_ROUTE_VBUSENPEN; /* Enable PHY pins. */
#else
USB->ROUTE = USB_ROUTE_PHYPEN; /* Enable PHY pins. */
#endif
USBHAL_CoreReset(); /* Reset USB core */
#if defined( USB_GUSBCFG_FORCEHSTMODE )
/* Force Device Mode */
USB->GUSBCFG = ( USB->GUSBCFG &
~(GUSBCFG_WO_BITMASK | USB_GUSBCFG_FORCEHSTMODE ) ) |
USB_GUSBCFG_FORCEDEVMODE;
#endif
INT_Enable();
USBTIMER_DelayMs( 50 );
INT_Disable();
/* Set device speed */
USB->DCFG = ( USB->DCFG & ~_USB_DCFG_DEVSPD_MASK ) | 3; /* Full speed PHY */
/* Stall on non-zero len status OUT packets (ctrl transfers). */
USB->DCFG |= USB_DCFG_NZSTSOUTHSHK;
/* Set periodic frame interval to 80% */
USB->DCFG &= ~_USB_DCFG_PERFRINT_MASK;
USB->GAHBCFG = ( USB->GAHBCFG & ~_USB_GAHBCFG_HBSTLEN_MASK ) |
USB_GAHBCFG_DMAEN | USB_GAHBCFG_HBSTLEN_INCR;
/* Ignore frame numbers on ISO transfers. */
USB->DCTL = ( USB->DCTL & ~DCTL_WO_BITMASK ) | USB_DCTL_IGNRFRMNUM;
/* Set Rx FIFO size */
start = EFM32_MAX( totalRxFifoSize, MIN_EP_FIFO_SIZE_INWORDS );
USB->GRXFSIZ = ( start << _USB_GRXFSIZ_RXFDEP_SHIFT ) &
_USB_GRXFSIZ_RXFDEP_MASK;
/* Set Tx EP0 FIFO size */
depth = EFM32_MAX( dev->ep[ 0 ].fifoSize, MIN_EP_FIFO_SIZE_INWORDS );
USB->GNPTXFSIZ = ( ( depth << _USB_GNPTXFSIZ_NPTXFINEPTXF0DEP_SHIFT ) &
_USB_GNPTXFSIZ_NPTXFINEPTXF0DEP_MASK ) |
( ( start << _USB_GNPTXFSIZ_NPTXFSTADDR_SHIFT ) &
_USB_GNPTXFSIZ_NPTXFSTADDR_MASK );
/* Set Tx EP FIFO sizes for all IN ep's */
for ( j = 1; j <= MAX_NUM_TX_FIFOS; j++ )
{
for ( i = 1; i <= MAX_NUM_IN_EPS; i++ )
{
ep = USBD_GetEpFromAddr( USB_SETUP_DIR_MASK | i );
if ( ep ) /* Is EP in use ? */
{
if ( ep->txFifoNum == j ) /* Is it correct FIFO number ? */
{
start += depth;
depth = EFM32_MAX( ep->fifoSize, MIN_EP_FIFO_SIZE_INWORDS );
USB_DIEPTXFS[ ep->txFifoNum - 1 ] =
( depth << _USB_DIEPTXF1_INEPNTXFDEP_SHIFT ) |
( start & _USB_DIEPTXF1_INEPNTXFSTADDR_MASK );
}
}
}
}
if ( totalRxFifoSize + totalTxFifoSize > MAX_DEVICE_FIFO_SIZE_INWORDS )
return USB_STATUS_ILLEGAL;
if ( start > MAX_DEVICE_FIFO_SIZE_INWORDS )
return USB_STATUS_ILLEGAL;
/* Flush the FIFO's */
USBHAL_FlushTxFifo( 0x10 ); /* All Tx FIFO's */
USBHAL_FlushRxFifo(); /* The Rx FIFO */
/* Disable all device interrupts */
USB->DIEPMSK = 0;
USB->DOEPMSK = 0;
USB->DAINTMSK = 0;
USB->DIEPEMPMSK = 0;
/* Disable all EP's, clear all EP ints. */
for ( i = 0; i <= MAX_NUM_IN_EPS; i++ )
{
USB_DINEPS[ i ].CTL = 0;
USB_DINEPS[ i ].TSIZ = 0;
USB_DINEPS[ i ].INT = 0xFFFFFFFF;
}
for ( i = 0; i <= MAX_NUM_OUT_EPS; i++ )
{
USB_DOUTEPS[ i ].CTL = 0;
USB_DOUTEPS[ i ].TSIZ = 0;
USB_DOUTEPS[ i ].INT = 0xFFFFFFFF;
}
#if ( USB_DCTL_SFTDISCON_DEFAULT != 0 )
USBD_Connect();
#endif
/* Enable VREGO sense. */
USB->CTRL |= USB_CTRL_VREGOSEN;
USB->IFC = USB_IFC_VREGOSH | USB_IFC_VREGOSL;
USB->IEN = USB_IFC_VREGOSH | USB_IFC_VREGOSL;
/* Force a VREGO interrupt. */
if ( USB->STATUS & USB_STATUS_VREGOS)
USB->IFS = USB_IFS_VREGOSH;
else
USB->IFS = USB_IFS_VREGOSL;
return USB_STATUS_OK;
}
USB_Status_TypeDef USBDHAL_ReconfigureFifos( uint32_t totalRxFifoSize,
uint32_t totalTxFifoSize )
{
uint8_t i, j;
uint16_t start, depth;
USBD_Ep_TypeDef *ep;
/* Set Rx FIFO size */
start = EFM32_MAX( totalRxFifoSize, MIN_EP_FIFO_SIZE_INWORDS );
USB->GRXFSIZ = ( start << _USB_GRXFSIZ_RXFDEP_SHIFT ) &
_USB_GRXFSIZ_RXFDEP_MASK;
/* Set Tx EP0 FIFO size */
depth = EFM32_MAX( dev->ep[ 0 ].fifoSize, MIN_EP_FIFO_SIZE_INWORDS );
USB->GNPTXFSIZ = ( ( depth << _USB_GNPTXFSIZ_NPTXFINEPTXF0DEP_SHIFT ) &
_USB_GNPTXFSIZ_NPTXFINEPTXF0DEP_MASK ) |
( ( start << _USB_GNPTXFSIZ_NPTXFSTADDR_SHIFT ) &
_USB_GNPTXFSIZ_NPTXFSTADDR_MASK );
/* Set Tx EP FIFO sizes for all IN ep's */
for ( j = 1; j <= MAX_NUM_TX_FIFOS; j++ )
{
for ( i = 1; i <= MAX_NUM_IN_EPS; i++ )
{
ep = USBD_GetEpFromAddr( USB_SETUP_DIR_MASK | i );
if ( ep ) /* Is EP in use ? */
{
if ( ep->txFifoNum == j ) /* Is it correct FIFO number ? */
{
start += depth;
depth = EFM32_MAX( ep->fifoSize, MIN_EP_FIFO_SIZE_INWORDS );
USB_DIEPTXFS[ ep->txFifoNum - 1 ] =
( depth << _USB_DIEPTXF1_INEPNTXFDEP_SHIFT ) |
( start & _USB_DIEPTXF1_INEPNTXFSTADDR_MASK );
}
}
}
}
if ( totalRxFifoSize + totalTxFifoSize > MAX_DEVICE_FIFO_SIZE_INWORDS )
return USB_STATUS_ILLEGAL;
if ( start > MAX_DEVICE_FIFO_SIZE_INWORDS )
return USB_STATUS_ILLEGAL;
/* Flush the FIFO's */
USBHAL_FlushTxFifo( 0x10 ); /* All Tx FIFO's */
USBHAL_FlushRxFifo(); /* The Rx FIFO */
return USB_STATUS_OK;
}
void USBDHAL_Disconnect( void )
{
USB->DCTL = ( USB->DCTL & ~DCTL_WO_BITMASK ) | USB_DCTL_SFTDISCON;
}
void USBDHAL_AbortEpIn( USBD_Ep_TypeDef *ep )
{
/* Clear epdis & inepnakeff INT's */
USB_DINEPS[ ep->num ].INT |= USB_DIEP_INT_EPDISBLD |
USB_DIEP_INT_INEPNAKEFF;
/* Enable epdis & inepnakeff INT's */
USB->DIEPMSK |= USB_DIEPMSK_EPDISBLDMSK | USB_DIEPMSK_INEPNAKEFFMSK;
USB_DINEPS[ ep->num ].CTL = ( USB_DINEPS[ ep->num ].CTL &
~DEPCTL_WO_BITMASK ) |
USB_DIEP_CTL_SNAK;
/* Wait for inepnakeff INT */
while ( !( USBDHAL_GetInEpInts( ep ) & USB_DIEP_INT_INEPNAKEFF ) ) {}
USB_DINEPS[ ep->num ].INT = USB_DIEP_INT_INEPNAKEFF;
USB->DIEPMSK &= ~USB_DIEPMSK_INEPNAKEFFMSK;
DEBUG_USB_INT_LO_PUTCHAR( '.' );
USBDHAL_SetEPDISNAK( ep );
/* Wait for epdis INT */
while ( !( USBDHAL_GetInEpInts( ep ) & USB_DIEP_INT_EPDISBLD ) ) {}
USB_DINEPS[ ep->num ].INT = USB_DIEP_INT_EPDISBLD;
USB->DIEPMSK &= ~USB_DIEPMSK_EPDISBLDMSK;
USBHAL_FlushTxFifo( ep->txFifoNum );
/* Clear any interrupts generated by the abort sequence. */
NVIC_ClearPendingIRQ( USB_IRQn );
DEBUG_USB_INT_LO_PUTCHAR( '.' );
}
void USBDHAL_AbortEpOut( USBD_Ep_TypeDef *ep )
{
int cnt;
/* Clear epdis INT's */
USB_DOUTEPS[ ep->num ].INT |= USB_DOEP_INT_EPDISBLD;
/* Clear Global OUT NAK if already set */
USB->DCTL = ( USB->DCTL & ~DCTL_WO_BITMASK ) | USB_DCTL_CGOUTNAK;
USB->GINTMSK |= USB_GINTMSK_GOUTNAKEFFMSK; /* Enable GOUTNAKEFF int */
/* Set Global OUT NAK */
USB->DCTL = ( USB->DCTL & ~DCTL_WO_BITMASK ) | USB_DCTL_SGOUTNAK;
/* Wait for goutnakeff */
cnt = EPABORT_BREAK_LOOP_COUNT;
while ( !( USB->GINTSTS & USB_GINTSTS_GOUTNAKEFF ) && cnt )
{
cnt--;
}
USB->GINTMSK &= ~USB_GINTMSK_GOUTNAKEFFMSK; /* Disable GOUTNAKEFF int */
USB->DOEPMSK |= USB_DOEPMSK_EPDISBLDMSK; /* Enable EPDIS interrupt */
DEBUG_USB_INT_LO_PUTCHAR( ',' );
USBDHAL_SetEPDISNAK( ep ); /* Disable ep */
/* Wait for epdis INT */
cnt = EPABORT_BREAK_LOOP_COUNT;
while ( !( USBDHAL_GetOutEpInts( ep ) & USB_DOEP_INT_EPDISBLD ) && cnt )
{
cnt--;
}
USB_DOUTEPS[ ep->num ].INT = USB_DOEP_INT_EPDISBLD;
USB->DOEPMSK &= ~USB_DOEPMSK_EPDISBLDMSK; /* Disable EPDIS interrupt */
/* Clear Global OUT NAK */
USB->DCTL = ( USB->DCTL & ~DCTL_WO_BITMASK ) | USB_DCTL_CGOUTNAK;
/* Clear any interrupts generated by the abort sequence. */
NVIC_ClearPendingIRQ( USB_IRQn );
DEBUG_USB_INT_LO_PUTCHAR( ',' );
}
void USBDHAL_AbortAllEps( void )
{
int i, cnt;
USBD_Ep_TypeDef *ep;
uint16_t im, om, inmask=0, outmask=0;
/* Clear epdis & inepnakeff INT's */
for ( i = 1; i <= NUM_EP_USED; i++ )
{
ep = &dev->ep[i];
if ( ep->state != D_EP_IDLE )
{
if ( ep->in )
{
inmask |= ep->mask;
USB_DINEPS[ ep->num ].INT |= USB_DIEP_INT_EPDISBLD |
USB_DIEP_INT_INEPNAKEFF;
}
else
{
outmask |= ep->mask;
USB_DOUTEPS[ ep->num ].INT |= USB_DOEP_INT_EPDISBLD;
}
}
}
if ( inmask )
{
/* Enable epdis & inepnakeff INT's */
USB->DIEPMSK |= USB_DIEPMSK_EPDISBLDMSK | USB_DIEPMSK_INEPNAKEFFMSK;
/* Set NAK on all IN ep's */
im = inmask;
for ( i = 1; i <= NUM_EP_USED; i++ )
{
ep = &dev->ep[i];
if ( im & ep->mask )
{
USB_DINEPS[ ep->num ].CTL = ( USB_DINEPS[ ep->num ].CTL &
~DEPCTL_WO_BITMASK ) |
USB_DIEP_CTL_SNAK;
}
}
}
if ( outmask )
{
/* Clear Global OUT NAK if already set */
USB->DCTL = ( USB->DCTL & ~DCTL_WO_BITMASK ) | USB_DCTL_CGOUTNAK;
USB->GINTMSK |= USB_GINTMSK_GOUTNAKEFFMSK; /* Enable GOUTNAKEFF int */
/* Set Global OUT NAK */
USB->DCTL = ( USB->DCTL & ~DCTL_WO_BITMASK ) | USB_DCTL_SGOUTNAK;
/* Wait for goutnakeff */
cnt = EPABORT_BREAK_LOOP_COUNT;
while ( !( USB->GINTSTS & USB_GINTSTS_GOUTNAKEFF ) && cnt )
{
cnt--;
}
USB->GINTMSK &= ~USB_GINTMSK_GOUTNAKEFFMSK; /* Disable GOUTNAKEFF int */
USB->DOEPMSK |= USB_DOEPMSK_EPDISBLDMSK; /* Enable EPDIS interrupt */
}
if ( inmask )
{
/* Wait for inepnakeff INT on all IN ep's */
im = inmask;
cnt = EPABORT_BREAK_LOOP_COUNT;
do
{
for ( i = 1; i <= NUM_EP_USED; i++ )
{
ep = &dev->ep[i];
if ( im & ep->mask )
{
if ( USBDHAL_GetInEpInts( ep ) & USB_DIEP_INT_INEPNAKEFF )
{
USB_DINEPS[ ep->num ].INT = USB_DIEP_INT_INEPNAKEFF;
im &= ~ep->mask;
}
}
}
cnt--;
} while ( im && cnt );
USB->DIEPMSK &= ~USB_DIEPMSK_INEPNAKEFFMSK;
}
DEBUG_USB_INT_LO_PUTCHAR( '\'' );
/* Disable ep's */
for ( i = 1; i <= NUM_EP_USED; i++ )
{
ep = &dev->ep[i];
if ( ep->state != D_EP_IDLE )
{
USBDHAL_SetEPDISNAK( ep );
}
}
/* Wait for epdis INT */
im = inmask;
om = outmask;
cnt = EPABORT_BREAK_LOOP_COUNT;
do
{
for ( i = 1; i <= NUM_EP_USED; i++ )
{
ep = &dev->ep[i];
if ( ep->in && ( im & ep->mask ) )
{
if ( USBDHAL_GetInEpInts( ep ) & USB_DIEP_INT_EPDISBLD )
{
USB_DINEPS[ ep->num ].INT = USB_DIEP_INT_EPDISBLD;
im &= ~ep->mask;
}
}
if ( !ep->in && ( om & ep->mask ) )
{
if ( USBDHAL_GetOutEpInts( ep ) & USB_DOEP_INT_EPDISBLD )
{
USB_DOUTEPS[ ep->num ].INT = USB_DOEP_INT_EPDISBLD;
om &= ~ep->mask;
}
}
}
cnt--;
} while ( ( im || om ) && cnt );
if ( inmask )
{
USB->DIEPMSK &= ~USB_DIEPMSK_EPDISBLDMSK; /* Disable EPDIS interrupt */
USBHAL_FlushTxFifo( 0x10 ); /* Flush all Tx FIFO's */
}
if ( outmask )
{
USB->DOEPMSK &= ~USB_DOEPMSK_EPDISBLDMSK; /* Disable EPDIS interrupt */
/* Clear Global OUT NAK */
USB->DCTL = ( USB->DCTL & ~DCTL_WO_BITMASK ) | USB_DCTL_CGOUTNAK;
}
DEBUG_USB_INT_LO_PUTCHAR( '\'' );
}
void USBDHAL_AbortAllTransfers( USB_Status_TypeDef reason )
{
int i;
USBD_Ep_TypeDef *ep;
USB_XferCompleteCb_TypeDef callback;
if ( reason != USB_STATUS_DEVICE_RESET )
{
USBDHAL_AbortAllEps();
}
for ( i = 1; i <= NUM_EP_USED; i++ )
{
ep = &(dev->ep[i]);
if ( ep->state != D_EP_IDLE )
{
ep->state = D_EP_IDLE;
if ( ep->xferCompleteCb )
{
callback = ep->xferCompleteCb;
ep->xferCompleteCb = NULL;
if ( ( dev->lastState == USBD_STATE_CONFIGURED ) &&
( dev->state == USBD_STATE_ADDRESSED ) )
{
USBDHAL_DeactivateEp( ep );
}
DEBUG_TRACE_ABORT( reason );
callback( reason, ep->xferred, ep->remaining );
}
}
}
/* Clear any interrupts generated by the abort sequence. */
NVIC_ClearPendingIRQ( USB_IRQn );
}
#endif /* defined( USB_DEVICE ) */
#if defined( USB_HOST )
USB_Status_TypeDef USBHHAL_CoreInit( uint32_t rxFifoSize,
uint32_t nptxFifoSize,
uint32_t ptxFifoSize )
{
uint8_t i;
rxFifoSize /= 4; /* Convert from byte count to word count. */
nptxFifoSize /= 4;
ptxFifoSize /= 4;
CMU_ClockEnable( cmuClock_GPIO, true );
GPIO_PinModeSet( gpioPortF, 5, gpioModePushPull, 0 ); /* Enable VBUSEN pin */
#if ( USB_VBUSOVRCUR_PORT != USB_VBUSOVRCUR_PORT_NONE )
/* Enable VBUS overcurrent flag pin. */
GPIO_PinModeSet( USB_VBUSOVRCUR_PORT, USB_VBUSOVRCUR_PIN, gpioModeInput, 0 );
#endif
USB->ROUTE = USB_ROUTE_PHYPEN | USB_ROUTE_VBUSENPEN; /* Enable PHY pins. */
USBHAL_CoreReset(); /* Reset USB core */
/* Force Host Mode */
USB->GUSBCFG = ( USB->GUSBCFG &
~(GUSBCFG_WO_BITMASK | USB_GUSBCFG_FORCEDEVMODE ) ) |
USB_GUSBCFG_FORCEHSTMODE;
INT_Enable();
USBTIMER_DelayMs( 100 );
INT_Disable();
/* Set 48 MHz PHY clock, FS/LS mode */
USB->HCFG = ( USB->HCFG & ~_USB_HCFG_FSLSPCLKSEL_MASK ) |
( 1 << _USB_HCFG_FSLSPCLKSEL_SHIFT ) |
( USB_HCFG_FSLSSUPP );
USB->GAHBCFG = ( USB->GAHBCFG & ~_USB_GAHBCFG_HBSTLEN_MASK ) |
USB_GAHBCFG_DMAEN | USB_GAHBCFG_HBSTLEN_INCR;
/* Set Rx FIFO size */
USB->GRXFSIZ = ( rxFifoSize << _USB_GRXFSIZ_RXFDEP_SHIFT ) &
_USB_GRXFSIZ_RXFDEP_MASK;
/* Set Tx FIFO sizes */
USB->GNPTXFSIZ = ( ( nptxFifoSize <<
_USB_GNPTXFSIZ_NPTXFINEPTXF0DEP_SHIFT ) &
_USB_GNPTXFSIZ_NPTXFINEPTXF0DEP_MASK ) |
( ( rxFifoSize <<
_USB_GNPTXFSIZ_NPTXFSTADDR_SHIFT ) &
_USB_GNPTXFSIZ_NPTXFSTADDR_MASK );
USB->HPTXFSIZ = ( ( ptxFifoSize << _USB_HPTXFSIZ_PTXFSIZE_SHIFT ) &
_USB_HPTXFSIZ_PTXFSIZE_MASK ) |
( ( ( rxFifoSize + nptxFifoSize )
<< _USB_HPTXFSIZ_PTXFSTADDR_SHIFT ) &
_USB_HPTXFSIZ_PTXFSTADDR_MASK );
/* Flush Tx and Rx FIFO's */
USBHAL_FlushTxFifo( 0x10 );
USBHAL_FlushRxFifo();
for ( i = 0; i < MAX_NUM_HOSTCHANNELS; i++ )
{
USB->HC[ i ].CHAR = USB_HC_CHAR_CHDIS; /* Disable channel */
USB->HC[ i ].INT = 0xFFFFFFFF; /* Clear pending interrupts */
}
/* Enable and halt all channels */
for ( i = 0; i < MAX_NUM_HOSTCHANNELS; i++ )
{
USB->HC[ i ].CHAR |= USB_HC_CHAR_CHDIS | USB_HC_CHAR_CHENA;
do
{
__NOP(); __NOP(); __NOP(); __NOP(); __NOP(); __NOP();
}
while ( USB->HC[ i ].CHAR & USB_HC_CHAR_CHENA );
}
/* Disable all interrupts */
for ( i = 0; i < MAX_NUM_HOSTCHANNELS; i++ )
{
USB->HC[ i ].INTMSK = 0;
}
USB->HAINTMSK = 0;
return USB_STATUS_OK;
}
void USBHHAL_HCHalt( int hcnum, uint32_t hcchar )
{
hcchar |= USB_HC_CHAR_CHENA | USB_HC_CHAR_CHDIS;
USB->HC[ hcnum ].CHAR = hcchar;
}
void USBHHAL_HCInit( int hcnum )
{
USBH_Ep_TypeDef *ep;
ep = hcs[ hcnum ].ep;
USB->HC[ hcnum ].INT = 0xFFFFFFFF; /* Clear all interrupt flags */
switch ( ep->type ) /* Enable host channel int. types */
{
case USB_EPTYPE_CTRL:
case USB_EPTYPE_BULK:
case USB_EPTYPE_INTR:
USB->HC[ hcnum ].INTMSK = USB_HC_INT_CHHLTD;
break;
}
hcs[ hcnum ].errorCnt = 0;
USB->HAINTMSK |= 1 << hcnum; /* Enable host channel interrupt */
USB->HC[ hcnum ].CHAR = /* Program HCCHAR register */
( ep->parentDevice->addr << _USB_HC_CHAR_DEVADDR_SHIFT ) |
( ( ep->addr & USB_EPNUM_MASK ) << _USB_HC_CHAR_EPNUM_SHIFT ) |
( ep->type << _USB_HC_CHAR_EPTYPE_SHIFT ) |
( ep->packetSize << _USB_HC_CHAR_MPS_SHIFT ) |
( ep->in ? USB_HC_CHAR_EPDIR : 0 ) |
( ep->parentDevice->speed ==
HPRT_L_SPEED >> _USB_HPRT_PRTSPD_SHIFT
? USB_HC_CHAR_LSPDDEV : 0 );
}
void USBHHAL_HCStart( int hcnum )
{
USBH_Hc_TypeDef *hc;
uint16_t packets, len;
hc = &hcs[ hcnum ];
hc->status = 0;
hc->idle = false;
if ( hc->remaining > 0 )
{
packets = ( hc->remaining + hc->ep->packetSize - 1 ) / hc->ep->packetSize;
}
else
{
packets = 1;
}
if ( hc->ep->in )
{
len = packets * hc->ep->packetSize;
}
else
{
len = hc->remaining;
}
/* Initialize the HCTSIZn register */
hc->hwXferSize = len;
USB->HC[ hcnum ].TSIZ =
( ( len << _USB_HC_TSIZ_XFERSIZE_SHIFT ) &
_USB_HC_TSIZ_XFERSIZE_MASK ) |
( ( packets << _USB_HC_TSIZ_PKTCNT_SHIFT ) &
_USB_HC_TSIZ_PKTCNT_MASK ) |
( ( hc->ep->toggle << _USB_HC_TSIZ_PID_SHIFT ) &
_USB_HC_TSIZ_PID_MASK );
USB->HC[ hcnum ].DMAADDR = (uint32_t)hc->buf;
USBHHAL_HCActivate( hcnum,
USB->HC[ hcnum ].CHAR,
hc->ep->type == USB_EPTYPE_INTR );
}
#endif /* defined( USB_HOST ) */
/** @endcond */
#endif /* defined( USB_DEVICE ) || defined( USB_HOST ) */
#endif /* defined( USB_PRESENT ) && ( USB_COUNT == 1 ) */