Adds class implementation for use STM32F4xx OTG_HS in FS mode
Fork of USBDevice by
targets/TARGET_Silicon_Labs/src/em_usbdint.c
- Committer:
- Kojto
- Date:
- 2017-07-27
- Revision:
- 71:53949e6131f6
File content as of revision 71:53949e6131f6:
/**************************************************************************//** * @file em_usbdint.c * @brief USB protocol stack library, USB device peripheral interrupt handlers. * @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 ) #include "em_cmu.h" #include "em_usbtypes.h" #include "em_usbhal.h" #include "em_usbd.h" #ifdef __MBED__ extern void usbhal_allow_em2(bool em2_allow); #endif /** @cond DO_NOT_INCLUDE_WITH_DOXYGEN */ #define HANDLE_INT( x ) if ( status & x ) { Handle_##x(); status &= ~x; } static void Handle_USB_GINTSTS_ENUMDONE ( void ); static void Handle_USB_GINTSTS_IEPINT ( void ); static void Handle_USB_GINTSTS_OEPINT ( void ); static void Handle_USB_GINTSTS_RESETDET ( void ); static void Handle_USB_GINTSTS_SOF ( void ); static void Handle_USB_GINTSTS_USBRST ( void ); static void Handle_USB_GINTSTS_USBSUSP ( void ); static void Handle_USB_GINTSTS_WKUPINT ( void ); #if defined( USB_DOEP0INT_STUPPKTRCVD ) static void HandleOutEpIntr( uint32_t status, USBD_Ep_TypeDef *ep ); #else static void ProcessSetup ( void ); static void ProcessOepData ( USBD_Ep_TypeDef *ep ); #endif #if ( USB_PWRSAVE_MODE ) /* Variables and prototypes for USB powerdown (suspend) functionality. */ static bool UsbPowerDown( void ); static bool UsbPowerUp( void ); volatile bool USBD_poweredDown = false; /* Storage for backing up USB core registers. */ static uint32_t x_USB_GINTMSK; #if defined(_USB_GOTGCTL_MASK) static uint32_t x_USB_GOTGCTL; #endif static uint32_t x_USB_GAHBCFG; static uint32_t x_USB_GUSBCFG; static uint32_t x_USB_GRXFSIZ; static uint32_t x_USB_GNPTXFSIZ; static uint32_t x_USB_DCFG; static uint32_t x_USB_DCTL; static uint32_t x_USB_DAINTMSK; static uint32_t x_USB_DIEPMSK; static uint32_t x_USB_DOEPMSK; static uint32_t x_USB_PCGCCTL; #if ( NUM_EP_USED > 0 ) static uint32_t x_USB_EP_CTL[ NUM_EP_USED ]; static uint32_t x_USB_EP_TSIZ[ NUM_EP_USED ]; static uint32_t x_USB_EP_DMAADDR[ NUM_EP_USED ]; #endif #if ( NUM_EP_USED > MAX_NUM_TX_FIFOS ) #define FIFO_CNT MAX_NUM_TX_FIFOS #else #define FIFO_CNT NUM_EP_USED #endif #if ( FIFO_CNT > 0 ) static uint32_t x_USB_DIEPTXFS[ FIFO_CNT ]; #endif #if ( USB_PWRSAVE_MODE ) static uint32_t cmuStatus = 0; #endif #endif /* if ( USB_PWRSAVE_MODE ) */ /* * USB_IRQHandler() is the first level handler for the USB peripheral interrupt. */ void USB_IRQHandler( void ) { uint32_t status; bool servedVbusInterrupt = false; INT_Disable(); #if ( USB_PWRSAVE_MODE ) if ( USBD_poweredDown ) { /* Switch USBC clock from 32kHz to a 48MHz clock to be able to */ /* read USB peripheral registers. */ /* If we woke up from EM2, HFCLK is now HFRCO. */ /* Restore clock oscillators.*/ #if defined( CMU_OSCENCMD_USHFRCOEN ) if ( ( CMU->STATUS & CMU_STATUS_USHFRCOENS ) == 0 )/*Wakeup from EM2 ?*/ { CMU->OSCENCMD = ( cmuStatus & ( CMU_STATUS_AUXHFRCOENS | CMU_STATUS_HFXOENS ) ) | CMU_OSCENCMD_USHFRCOEN; } #else if ( ( CMU->STATUS & CMU_STATUS_HFXOENS ) == 0 ) /* Wakeup from EM2 ? */ { CMU->OSCENCMD = cmuStatus & ( CMU_STATUS_AUXHFRCOENS | CMU_STATUS_HFXOENS ); } #endif /* Select correct USBC clock.*/ #if defined( CMU_OSCENCMD_USHFRCOEN ) CMU->CMD = CMU_CMD_USBCCLKSEL_USHFRCO; while ( ( CMU->STATUS & CMU_STATUS_USBCUSHFRCOSEL ) == 0 ){} #else CMU->CMD = CMU_CMD_USBCCLKSEL_HFCLKNODIV; while ( ( CMU->STATUS & CMU_STATUS_USBCHFCLKSEL ) == 0 ){} #endif } #endif /* if ( USB_PWRSAVE_MODE ) */ if ( USB->IF && ( USB->CTRL & USB_CTRL_VREGOSEN ) ) { if ( USB->IF & USB_IF_VREGOSH ) { USB->IFC = USB_IFC_VREGOSH; if ( USB->STATUS & USB_STATUS_VREGOS ) { servedVbusInterrupt = true; DEBUG_USB_INT_LO_PUTS( "\nVboN" ); #if ( USB_PWRSAVE_MODE ) if ( UsbPowerUp() ) { USBDHAL_EnableUsbResetAndSuspendInt(); } USBD_SetUsbState( USBD_STATE_POWERED ); #endif } } if ( USB->IF & USB_IF_VREGOSL ) { USB->IFC = USB_IFC_VREGOSL; if ( ( USB->STATUS & USB_STATUS_VREGOS ) == 0 ) { servedVbusInterrupt = true; DEBUG_USB_INT_LO_PUTS( "\nVboF" ); #if ( USB_PWRSAVE_MODE ) #if ( USB_PWRSAVE_MODE & USB_PWRSAVE_MODE_ONVBUSOFF ) if ( !USBD_poweredDown ) { USB->GINTMSK = 0; USB->GINTSTS = 0xFFFFFFFF; } UsbPowerDown(); #endif USBD_SetUsbState( USBD_STATE_NONE ); #endif } } } status = USBHAL_GetCoreInts(); if ( status == 0 ) { INT_Enable(); if ( !servedVbusInterrupt ) { DEBUG_USB_INT_LO_PUTS( "\nSinT" ); } return; } HANDLE_INT( USB_GINTSTS_RESETDET ) HANDLE_INT( USB_GINTSTS_WKUPINT ) HANDLE_INT( USB_GINTSTS_USBSUSP ) HANDLE_INT( USB_GINTSTS_SOF ) HANDLE_INT( USB_GINTSTS_ENUMDONE ) HANDLE_INT( USB_GINTSTS_USBRST ) HANDLE_INT( USB_GINTSTS_IEPINT ) HANDLE_INT( USB_GINTSTS_OEPINT ) INT_Enable(); if ( status != 0 ) { DEBUG_USB_INT_LO_PUTS( "\nUinT" ); } } /* * Handle port enumeration interrupt. This has nothing to do with normal * device enumeration. */ static void Handle_USB_GINTSTS_ENUMDONE( void ) { #if ( USB_PWRSAVE_MODE ) UsbPowerUp(); #endif USBDHAL_Ep0Activate( dev->ep0MpsCode ); dev->ep[ 0 ].state = D_EP_IDLE; USBDHAL_EnableInts( dev ); DEBUG_USB_INT_LO_PUTS( "EnumD" ); } /* * Handle IN endpoint transfer interrupt. */ static void Handle_USB_GINTSTS_IEPINT( void ) { int epnum; uint16_t epint; uint16_t epmask; uint32_t status; USBD_Ep_TypeDef *ep; DEBUG_USB_INT_HI_PUTCHAR( 'i' ); epint = USBDHAL_GetAllInEpInts(); for ( epnum = 0, epmask = 1; epnum <= MAX_NUM_IN_EPS; epnum++, epmask <<= 1 ) { if ( epint & epmask ) { ep = USBD_GetEpFromAddr( USB_SETUP_DIR_MASK | epnum ); status = USBDHAL_GetInEpInts( ep ); if ( status & USB_DIEP_INT_XFERCOMPL ) { USB_DINEPS[ epnum ].INT = USB_DIEP_INT_XFERCOMPL; DEBUG_USB_INT_HI_PUTCHAR( 'c' ); if ( epnum == 0 ) { if ( ep->remaining > ep->packetSize ) { ep->remaining -= ep->packetSize; ep->xferred += ep->packetSize; } else { ep->xferred += ep->remaining; ep->remaining = 0; } USBDEP_Ep0Handler( dev ); } else { ep->xferred = ep->remaining - ( ( USB_DINEPS[ epnum ].TSIZ & _USB_DIEP_TSIZ_XFERSIZE_MASK ) >> _USB_DIEP_TSIZ_XFERSIZE_SHIFT ); ep->remaining -= ep->xferred; USBDEP_EpHandler( ep->addr ); #if defined( USB_DOEP0INT_STUPPKTRCVD ) if ( USB_DINEPS[ ep->num ].INT & USB_DIEP_INT_NAKINTRPT ) { USB_DINEPS[ ep->num ].INT = USB_DIEP_INT_NAKINTRPT; } #endif } } } } } /* * Handle OUT endpoint transfer interrupt. */ static void Handle_USB_GINTSTS_OEPINT( void ) { int epnum; uint16_t epint; uint16_t epmask; uint32_t status; USBD_Ep_TypeDef *ep; DEBUG_USB_INT_HI_PUTCHAR( 'o' ); epint = USBDHAL_GetAllOutEpInts(); for ( epnum = 0, epmask = 1; epnum <= MAX_NUM_OUT_EPS; epnum++, epmask <<= 1 ) { if ( epint & epmask ) { ep = USBD_GetEpFromAddr( epnum ); status = USBDHAL_GetOutEpInts( ep ); #if defined( USB_DOEP0INT_STUPPKTRCVD ) HandleOutEpIntr( status, ep ); #else if ( status & USB_DOEP_INT_XFERCOMPL ) { USB_DOUTEPS[ epnum ].INT = USB_DOEP_INT_XFERCOMPL; DEBUG_USB_INT_HI_PUTCHAR( 'c' ); ProcessOepData( ep ); } /* Setup Phase Done */ if ( status & USB_DOEP0INT_SETUP ) { ProcessSetup(); } #endif } } } #if !defined( USB_DOEP0INT_STUPPKTRCVD ) static void ProcessOepData( USBD_Ep_TypeDef *ep ) { if ( ep->num == 0 ) { #ifdef __MBED__ int xfer_size = ep->packetSize - (( USB->DOEP0TSIZ & _USB_DOEP0TSIZ_XFERSIZE_MASK ) >> _USB_DOEP0TSIZ_XFERSIZE_SHIFT); int setup_pkt_received = USBDHAL_GetOutEpInts( ep ) & USB_DOEP0INT_SETUP; if ( (!setup_pkt_received && xfer_size == 0) || (setup_pkt_received && xfer_size == 8) ) { /* Higher levels need to see the correct transfer amount for ZLPs */ ep->remaining = 0; ep->xferred = 0; } else { /* FIXME - does not work if actual read size > 56 */ if ( setup_pkt_received ) xfer_size -= 8; ep->xferred = xfer_size; ep->remaining -= xfer_size; } #else if ( ep->remaining > ep->packetSize ) { ep->remaining -= ep->packetSize; ep->xferred += ep->packetSize; } else { ep->xferred += ep->remaining; ep->remaining = 0; } #endif USBDEP_Ep0Handler( dev ); } else { ep->xferred = ep->hwXferSize - ( ( USB_DOUTEPS[ ep->num ].TSIZ & _USB_DOEP_TSIZ_XFERSIZE_MASK )>> _USB_DOEP_TSIZ_XFERSIZE_SHIFT ); ep->remaining -= ep->xferred; USBDEP_EpHandler( ep->addr ); } } #endif #if !defined( USB_DOEP0INT_STUPPKTRCVD ) static void ProcessSetup( void ) { DEBUG_USB_INT_LO_PUTS( "\nS" ); if ( USB->DOEP0INT & USB_DOEP0INT_BACK2BACKSETUP ) { /* Back to back setup packets received */ USB->DOEP0INT = USB_DOEP0INT_BACK2BACKSETUP; DEBUG_USB_INT_LO_PUTS( "B2B" ); dev->setup = (USB_Setup_TypeDef*)( USB->DOEP0DMAADDR - USB_SETUP_PKT_SIZE ); } else { /* Read SETUP packet counter from hw. */ int supCnt = ( USB->DOEP0TSIZ & _USB_DOEP0TSIZ_SUPCNT_MASK ) >> _USB_DOEP0TSIZ_SUPCNT_SHIFT; if ( supCnt == 3 ) supCnt = 2; dev->setup = &dev->setupPkt[ 2 - supCnt ]; } USB->DOEP0TSIZ |= 3 << _USB_DOEP0TSIZ_SUPCNT_SHIFT; USB->DOEP0DMAADDR = (uint32_t)dev->setupPkt; USB->DOEP0INT = USB_DOEP0INT_SETUP; USBDEP_Ep0Handler( dev ); /* Call the SETUP handler for EP0 */ } #endif /* * Handle USB reset detected interrupt in suspend mode. */ static void Handle_USB_GINTSTS_RESETDET ( void ) { #if ( USB_PWRSAVE_MODE ) if ( ! USBD_poweredDown ) { USB->GINTSTS = USB_GINTSTS_RESETDET; } if ( UsbPowerUp() ) { USB->GINTSTS = USB_GINTSTS_RESETDET; } #if ( USB_PWRSAVE_MODE & USB_PWRSAVE_MODE_ONVBUSOFF ) /* Power down immediately if VBUS is off. */ if ( ! ( USB->STATUS & USB_STATUS_VREGOS ) ) { UsbPowerDown(); } #endif #else USB->GINTSTS = USB_GINTSTS_RESETDET; #endif /* if ( USB_PWRSAVE_MODE ) */ if ( USB->STATUS & USB_STATUS_VREGOS ) { USBD_SetUsbState( USBD_STATE_DEFAULT ); } else { USBD_SetUsbState( USBD_STATE_NONE ); } DEBUG_USB_INT_LO_PUTS( "RsuP\n" ); } /* * Handle Start Of Frame (SOF) interrupt. */ static void Handle_USB_GINTSTS_SOF( void ) { USB->GINTSTS = USB_GINTSTS_SOF; if ( dev->callbacks->sofInt ) { dev->callbacks->sofInt( ( USB->DSTS & _USB_DSTS_SOFFN_MASK ) >> _USB_DSTS_SOFFN_SHIFT ); } } /* * Handle USB port reset interrupt. */ static void Handle_USB_GINTSTS_USBRST( void ) { int i; DEBUG_USB_INT_LO_PUTS( "ReseT" ); /* Clear Remote Wakeup Signalling */ USB->DCTL &= ~( DCTL_WO_BITMASK | USB_DCTL_RMTWKUPSIG ); USBHAL_FlushTxFifo( 0 ); /* Clear pending interrupts */ for ( i = 0; i <= MAX_NUM_IN_EPS; i++ ) { USB_DINEPS[ i ].INT = 0xFFFFFFFF; } for ( i = 0; i <= MAX_NUM_OUT_EPS; i++ ) { USB_DOUTEPS[ i ].INT = 0xFFFFFFFF; } USB->DAINTMSK = USB_DAINTMSK_INEPMSK0 | USB_DAINTMSK_OUTEPMSK0; #if defined( USB_DOEPMSK_STSPHSERCVDMSK ) USB->DOEPMSK = USB_DOEPMSK_SETUPMSK | USB_DOEPMSK_XFERCOMPLMSK | USB_DOEPMSK_STSPHSERCVDMSK; #else USB->DOEPMSK = USB_DOEPMSK_SETUPMSK | USB_DOEPMSK_XFERCOMPLMSK; #endif USB->DIEPMSK = USB_DIEPMSK_XFERCOMPLMSK; /* Reset Device Address */ USB->DCFG &= ~_USB_DCFG_DEVADDR_MASK; /* Setup EP0 to receive SETUP packets */ USBDHAL_StartEp0Setup( dev ); USBDHAL_EnableInts( dev ); if ( dev->callbacks->usbReset ) { dev->callbacks->usbReset(); } USBD_SetUsbState( USBD_STATE_DEFAULT ); USBDHAL_AbortAllTransfers( USB_STATUS_DEVICE_RESET ); } /* * Handle USB port suspend interrupt. */ static void Handle_USB_GINTSTS_USBSUSP( void ) { USBD_State_TypeDef state; USB->GINTSTS = USB_GINTSTS_USBSUSP; USBDHAL_AbortAllTransfers( USB_STATUS_DEVICE_SUSPENDED ); DEBUG_USB_INT_LO_PUTS( "\nSusP" ); if ( USBD_GetUsbState() == USBD_STATE_NONE ) { USBD_SetUsbState( USBD_STATE_POWERED ); } state = USBD_GetUsbState(); if ( ( state == USBD_STATE_POWERED ) || ( state == USBD_STATE_DEFAULT ) || ( state == USBD_STATE_ADDRESSED ) || ( state == USBD_STATE_CONFIGURED ) ) { #if ( USB_PWRSAVE_MODE ) UsbPowerDown(); #endif USBD_SetUsbState( USBD_STATE_SUSPENDED ); } } /* * Handle USB port wakeup interrupt. */ static void Handle_USB_GINTSTS_WKUPINT( void ) { #if ( USB_PWRSAVE_MODE ) if ( ! USBD_poweredDown ) { USB->GINTSTS = USB_GINTSTS_WKUPINT; } if ( UsbPowerUp() ) { USB->GINTSTS = USB_GINTSTS_WKUPINT; USBDHAL_StartEp0Setup( dev ); USBDHAL_Ep0Activate( dev->ep0MpsCode ); } #else USB->GINTSTS = USB_GINTSTS_WKUPINT; #endif USBD_SetUsbState( dev->savedState ); DEBUG_USB_INT_LO_PUTS( "WkuP\n" ); } #if ( USB_PWRSAVE_MODE ) /* * Backup essential USB core registers, and set the core in partial powerdown * mode. Optionally prepare entry into EM2. */ static bool UsbPowerDown( void ) { #if ( NUM_EP_USED > 0 ) || ( FIFO_CNT > 0 ) int i; #endif #if ( NUM_EP_USED > 0 ) int epNum; USBD_Ep_TypeDef *ep; #endif if ( !USBD_poweredDown ) { USBD_poweredDown = true; DEBUG_USB_INT_LO_PUTCHAR( '\\' ); /* Backup USB core registers. */ x_USB_GINTMSK = USB->GINTMSK; #if defined(_USB_GOTGCTL_MASK) x_USB_GOTGCTL = USB->GOTGCTL; #endif x_USB_GAHBCFG = USB->GAHBCFG; x_USB_GUSBCFG = USB->GUSBCFG; x_USB_GRXFSIZ = USB->GRXFSIZ; x_USB_GNPTXFSIZ = USB->GNPTXFSIZ; x_USB_DCFG = USB->DCFG; x_USB_DCTL = USB->DCTL; x_USB_DAINTMSK = USB->DAINTMSK; x_USB_DIEPMSK = USB->DIEPMSK; x_USB_DOEPMSK = USB->DOEPMSK; x_USB_PCGCCTL = USB->PCGCCTL; #if ( NUM_EP_USED > 0 ) for ( i = 0; i < NUM_EP_USED; i++ ) { ep = &dev->ep[ i+1 ]; epNum = ep->num; if ( ep->in ) { x_USB_EP_CTL[ i ] = USB_DINEPS[ epNum ].CTL; x_USB_EP_TSIZ[ i ] = USB_DINEPS[ epNum ].TSIZ; x_USB_EP_DMAADDR[ i ] = USB_DINEPS[ epNum ].DMAADDR; } else { x_USB_EP_CTL[ i ] = USB_DOUTEPS[ epNum ].CTL; x_USB_EP_TSIZ[ i ] = USB_DOUTEPS[ epNum ].TSIZ; x_USB_EP_DMAADDR[ i ] = USB_DOUTEPS[ epNum ].DMAADDR; } } #endif #if ( FIFO_CNT > 0 ) for ( i = 0; i < FIFO_CNT; i++ ) { x_USB_DIEPTXFS[ i ] = USB_DIEPTXFS[ i ]; } #endif /* Prepare for wakeup on resume and reset. */ USB->DCFG = (USB->DCFG & ~_USB_DCFG_RESVALID_MASK) | (4 << _USB_DCFG_RESVALID_SHIFT); USB->DCFG |= USB_DCFG_ENA32KHZSUSP; USB->GINTMSK = USB_GINTMSK_RESETDETMSK | USB_GINTMSK_WKUPINTMSK; /* Enter partial powerdown mode. */ USB->PCGCCTL |= USB_PCGCCTL_PWRCLMP; USB->PCGCCTL |= USB_PCGCCTL_RSTPDWNMODULE; USB->PCGCCTL |= USB_PCGCCTL_STOPPCLK; /* Record current clock settings. */ cmuStatus = CMU->STATUS; #if ( USB_PWRSAVE_MODE & USB_PWRSAVE_MODE_ENTEREM2 ) #ifndef __MBED__ /* Enter EM2 on interrupt exit. */ SCB->SCR |= SCB_SCR_SLEEPDEEP_Msk | SCB_SCR_SLEEPONEXIT_Msk; #else usbhal_allow_em2(true); #endif #endif /* Switch USBC clock to 32 kHz. */ #if ( USB_USBC_32kHz_CLK == USB_USBC_32kHz_CLK_LFXO ) CMU->CMD = CMU_CMD_USBCCLKSEL_LFXO; while ( ( CMU->STATUS & CMU_STATUS_USBCLFXOSEL ) == 0 ){} #else CMU->CMD = CMU_CMD_USBCCLKSEL_LFRCO; while ( ( CMU->STATUS & CMU_STATUS_USBCLFRCOSEL ) == 0 ){} #endif return true; } return false; } #endif /* if ( USB_PWRSAVE_MODE ) */ #if ( USB_PWRSAVE_MODE ) /* * Exit USB core partial powerdown mode, restore essential USB core registers. * Will prevent re-entry back to EM2. * Returns true if a powerup sequence was performed. */ static bool UsbPowerUp( void ) { #if ( NUM_EP_USED > 0 ) || ( FIFO_CNT > 0 ) int i; #endif #if ( NUM_EP_USED > 0 ) int epNum; uint32_t tmp; USBD_Ep_TypeDef *ep; #endif if ( USBD_poweredDown ) { USBD_poweredDown = false; DEBUG_USB_INT_LO_PUTCHAR( '/' ); #if !defined( USB_CORECLK_HFRCO ) || !defined( CMU_OSCENCMD_USHFRCOEN ) /* Switch HFCLK from HFRCO to HFXO. */ CMU_ClockSelectSet( cmuClock_HF, cmuSelect_HFXO ); #endif /* Turn off HFRCO when not needed. */ if ( ( cmuStatus & CMU_STATUS_HFRCOENS ) == 0 ) { CMU->OSCENCMD = CMU_OSCENCMD_HFRCODIS; } /* Exit partial powerdown mode. */ USB->PCGCCTL &= ~USB_PCGCCTL_STOPPCLK; USB->PCGCCTL &= ~(USB_PCGCCTL_PWRCLMP | USB_PCGCCTL_RSTPDWNMODULE); if (( USB->GINTSTS & ( USB_GINTSTS_WKUPINT | USB_GINTSTS_RESETDET ) ) == 0) { USB->DCTL = x_USB_DCTL | USB_DCTL_RMTWKUPSIG; USB->DCTL = x_USB_DCTL; } /* Restore USB core registers. */ USB->GUSBCFG = x_USB_GUSBCFG; USB->DCFG = x_USB_DCFG; #if ( FIFO_CNT > 0 ) for ( i = 0; i < FIFO_CNT; i++ ) { USB_DIEPTXFS[ i ] = x_USB_DIEPTXFS[ i ]; } #endif #if ( NUM_EP_USED > 0 ) for ( i = 0; i < NUM_EP_USED; i++ ) { ep = &dev->ep[ i+1 ]; epNum = ep->num; tmp = x_USB_EP_CTL[ i ] & ~( USB_DIEP_CTL_CNAK | USB_DIEP_CTL_SNAK | USB_DIEP_CTL_SETD0PIDEF | USB_DIEP_CTL_SETD1PIDOF ); if ( x_USB_EP_CTL[ i ] & USB_DIEP_CTL_DPIDEOF ) tmp |= USB_DIEP_CTL_SETD1PIDOF; else tmp |= USB_DIEP_CTL_SETD0PIDEF; if ( x_USB_EP_CTL[ i ] & USB_DIEP_CTL_NAKSTS ) tmp |= USB_DIEP_CTL_SNAK; else tmp |= USB_DIEP_CTL_CNAK; if ( ep->in ) { USB_DINEPS[ epNum ].CTL = tmp; USB_DINEPS[ epNum ].TSIZ = x_USB_EP_TSIZ[ i ]; USB_DINEPS[ epNum ].DMAADDR = x_USB_EP_DMAADDR[ i ]; } else { USB_DOUTEPS[ epNum ].CTL = tmp; USB_DOUTEPS[ epNum ].TSIZ = x_USB_EP_TSIZ[ i ]; USB_DOUTEPS[ epNum ].DMAADDR = x_USB_EP_DMAADDR[ i ]; } } #endif USB->PCGCCTL = x_USB_PCGCCTL; USB->DOEPMSK = x_USB_DOEPMSK; USB->DIEPMSK = x_USB_DIEPMSK; USB->DAINTMSK = x_USB_DAINTMSK; USB->DCTL = x_USB_DCTL; USB->GNPTXFSIZ = x_USB_GNPTXFSIZ; USB->GRXFSIZ = x_USB_GRXFSIZ; USB->GAHBCFG = x_USB_GAHBCFG; #if defined(_USB_GOTGCTL_MASK) USB->GOTGCTL = x_USB_GOTGCTL; #endif USB->GINTMSK = x_USB_GINTMSK; USB->DCTL |= USB_DCTL_PWRONPRGDONE; #if ( USB_PWRSAVE_MODE & USB_PWRSAVE_MODE_ENTEREM2 ) #ifndef __MBED__ /* Do not reenter EM2 on interrupt exit. */ SCB->SCR &= ~(SCB_SCR_SLEEPDEEP_Msk | SCB_SCR_SLEEPONEXIT_Msk); #else usbhal_allow_em2(false); #endif #endif return true; } return false; } #endif /* if ( USB_PWRSAVE_MODE ) */ #if defined( USB_DOEP0INT_STUPPKTRCVD ) static void HandleOutEpIntr( uint32_t status, USBD_Ep_TypeDef *ep ) { uint32_t doeptsiz; if ( ep->num == 0 ) { if ( status & USB_DOEP0INT_XFERCOMPL ) { USB->DOEP0INT = USB_DOEP0INT_XFERCOMPL; doeptsiz = USB->DOEP0TSIZ; if ( ep->state == D_EP_IDLE ) { if ( status & USB_DOEP0INT_STUPPKTRCVD ) { USB->DOEP0INT = USB_DOEP0INT_STUPPKTRCVD; } status = USBDHAL_GetOutEpInts( ep ); doeptsiz = USB->DOEP0TSIZ; if ( status & USB_DOEP0INT_SETUP ) { retry: /* Already started data stage, clear setup */ USB->DOEP0INT = USB_DOEP0INT_SETUP; status &= ~USB_DOEP0INT_SETUP; { int supCnt = ( doeptsiz & _USB_DOEP0TSIZ_SUPCNT_MASK ) >> _USB_DOEP0TSIZ_SUPCNT_SHIFT; if ( supCnt == 3 ) supCnt = 2; dev->setup = &dev->setupPkt[ 2 - supCnt ]; } DEBUG_USB_INT_LO_PUTS( "\nS" ); USBDEP_Ep0Handler( dev ); /* Prepare for more setup packets */ if ( ep->state == D_EP0_IN_STATUS || ep->state == D_EP_TRANSMITTING ) { USBDHAL_StartEp0Setup( dev ); } } else /* xfercompl && idle && !setup */ { status = USBDHAL_GetOutEpInts( ep ); if ( status & USB_DOEP0INT_SETUP ) goto retry; USBDHAL_StartEp0Setup( dev ); } } else /* ep0state != EP0_IDLE */ { #ifdef __MBED__ if ( ep->state == D_EP_RECEIVING ) { int xfer_size = ep->packetSize - (( USB->DOEP0TSIZ & _USB_DOEP0TSIZ_XFERSIZE_MASK ) >> _USB_DOEP0TSIZ_XFERSIZE_SHIFT); int setup_pkt_received = status & USB_DOEP0INT_SETUP; if ( (!setup_pkt_received && xfer_size == 0) || (setup_pkt_received && xfer_size == 8) ) { /* Higher levels need to see the correct transfer amount for ZLPs */ ep->remaining = 0; ep->xferred = 0; } else { /* FIXME - does not work if actual read size > 56 */ if ( setup_pkt_received ) xfer_size -= 8; ep->xferred = xfer_size; ep->remaining -= xfer_size; } USBDEP_Ep0Handler( dev ); } #else if ( ep->state == D_EP_RECEIVING ) { if ( ep->remaining > ep->packetSize ) { ep->remaining -= ep->packetSize; ep->xferred += ep->packetSize; } else { ep->xferred += ep->remaining; ep->remaining = 0; } USBDEP_Ep0Handler( dev ); } else if ( ep->state == D_EP0_OUT_STATUS ) { USBDEP_Ep0Handler( dev ); } #endif } } /* if ( status & USB_DOEP0INT_XFERCOMPL ) */ if ( status & USB_DOEP0INT_STSPHSERCVD ) { USB->DOEP0INT = USB_DOEP0INT_STSPHSERCVD; } if ( status & USB_DOEP0INT_SETUP ) { USB->DOEP0INT = USB_DOEP0INT_SETUP; { int supCnt = ( USB->DOEP0TSIZ & _USB_DOEP0TSIZ_SUPCNT_MASK ) >> _USB_DOEP0TSIZ_SUPCNT_SHIFT; if ( supCnt == 3 ) supCnt = 2; dev->setup = &dev->setupPkt[ 2 - supCnt ]; } DEBUG_USB_INT_LO_PUTS( "\nS" ); USBDEP_Ep0Handler( dev ); } } else /* epnum != 0 */ { if ( status & USB_DOEP_INT_XFERCOMPL ) { USB_DOUTEPS[ ep->num ].INT = USB_DOEP_INT_XFERCOMPL; ep->xferred = ep->hwXferSize - ( ( USB_DOUTEPS[ ep->num ].TSIZ & _USB_DOEP_TSIZ_XFERSIZE_MASK )>> _USB_DOEP_TSIZ_XFERSIZE_SHIFT ); ep->remaining -= ep->xferred; USBDEP_EpHandler( ep->addr ); } } } #endif /** @endcond */ #endif /* defined( USB_DEVICE ) */ #endif /* defined( USB_PRESENT ) && ( USB_COUNT == 1 ) */