micropython/stm/stmusb/usb_dcd_int.c

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2013-10-13 00:42:20 +01:00
/**
******************************************************************************
* @file usb_dcd_int.c
* @author MCD Application Team
* @version V2.1.0
* @date 19-March-2012
* @brief Peripheral Device interrupt subroutines
******************************************************************************
* @attention
*
* <h2><center>&copy; COPYRIGHT 2012 STMicroelectronics</center></h2>
*
* Licensed under MCD-ST Liberty SW License Agreement V2, (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.st.com/software_license_agreement_liberty_v2
*
* 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.
*
******************************************************************************
*/
/* Includes ------------------------------------------------------------------*/
#include "usb_dcd_int.h"
/** @addtogroup USB_OTG_DRIVER
* @{
*/
/** @defgroup USB_DCD_INT
* @brief This file contains the interrupt subroutines for the Device mode.
* @{
*/
/** @defgroup USB_DCD_INT_Private_Defines
* @{
*/
/**
* @}
*/
/** @defgroup USB_DCD_INT_Private_TypesDefinitions
* @{
*/
/**
* @}
*/
/** @defgroup USB_DCD_INT_Private_Macros
* @{
*/
/**
* @}
*/
/** @defgroup USB_DCD_INT_Private_Variables
* @{
*/
/**
* @}
*/
/** @defgroup USB_DCD_INT_Private_FunctionPrototypes
* @{
*/
/* static functions */
static uint32_t DCD_ReadDevInEP (USB_OTG_CORE_HANDLE *pdev, uint8_t epnum);
/* Interrupt Handlers */
static uint32_t DCD_HandleInEP_ISR(USB_OTG_CORE_HANDLE *pdev);
static uint32_t DCD_HandleOutEP_ISR(USB_OTG_CORE_HANDLE *pdev);
static uint32_t DCD_HandleSof_ISR(USB_OTG_CORE_HANDLE *pdev);
static uint32_t DCD_HandleRxStatusQueueLevel_ISR(USB_OTG_CORE_HANDLE *pdev);
static uint32_t DCD_WriteEmptyTxFifo(USB_OTG_CORE_HANDLE *pdev , uint32_t epnum);
static uint32_t DCD_HandleUsbReset_ISR(USB_OTG_CORE_HANDLE *pdev);
static uint32_t DCD_HandleEnumDone_ISR(USB_OTG_CORE_HANDLE *pdev);
static uint32_t DCD_HandleResume_ISR(USB_OTG_CORE_HANDLE *pdev);
static uint32_t DCD_HandleUSBSuspend_ISR(USB_OTG_CORE_HANDLE *pdev);
static uint32_t DCD_IsoINIncomplete_ISR(USB_OTG_CORE_HANDLE *pdev);
static uint32_t DCD_IsoOUTIncomplete_ISR(USB_OTG_CORE_HANDLE *pdev);
#ifdef VBUS_SENSING_ENABLED
static uint32_t DCD_SessionRequest_ISR(USB_OTG_CORE_HANDLE *pdev);
static uint32_t DCD_OTG_ISR(USB_OTG_CORE_HANDLE *pdev);
#endif
/**
* @}
*/
/** @defgroup USB_DCD_INT_Private_Functions
* @{
*/
#ifdef USB_OTG_HS_DEDICATED_EP1_ENABLED
/**
* @brief USBD_OTG_EP1OUT_ISR_Handler
* handles all USB Interrupts
* @param pdev: device instance
* @retval status
*/
uint32_t USBD_OTG_EP1OUT_ISR_Handler (USB_OTG_CORE_HANDLE *pdev)
{
USB_OTG_DOEPINTn_TypeDef doepint;
USB_OTG_DEPXFRSIZ_TypeDef deptsiz;
doepint.d32 = USB_OTG_READ_REG32(&pdev->regs.OUTEP_REGS[1]->DOEPINT);
doepint.d32&= USB_OTG_READ_REG32(&pdev->regs.DREGS->DOUTEP1MSK);
/* Transfer complete */
if ( doepint.b.xfercompl )
{
/* Clear the bit in DOEPINTn for this interrupt */
CLEAR_OUT_EP_INTR(1, xfercompl);
if (pdev->cfg.dma_enable == 1)
{
deptsiz.d32 = USB_OTG_READ_REG32(&(pdev->regs.OUTEP_REGS[1]->DOEPTSIZ));
/*ToDo : handle more than one single MPS size packet */
pdev->dev.out_ep[1].xfer_count = pdev->dev.out_ep[1].maxpacket - \
deptsiz.b.xfersize;
}
/* Inform upper layer: data ready */
/* RX COMPLETE */
USBD_DCD_INT_fops->DataOutStage(pdev , 1);
}
/* Endpoint disable */
if ( doepint.b.epdisabled )
{
/* Clear the bit in DOEPINTn for this interrupt */
CLEAR_OUT_EP_INTR(1, epdisabled);
}
return 1;
}
/**
* @brief USBD_OTG_EP1IN_ISR_Handler
* handles all USB Interrupts
* @param pdev: device instance
* @retval status
*/
uint32_t USBD_OTG_EP1IN_ISR_Handler (USB_OTG_CORE_HANDLE *pdev)
{
USB_OTG_DIEPINTn_TypeDef diepint;
uint32_t fifoemptymsk, msk, emp;
msk = USB_OTG_READ_REG32(&pdev->regs.DREGS->DINEP1MSK);
emp = USB_OTG_READ_REG32(&pdev->regs.DREGS->DIEPEMPMSK);
msk |= ((emp >> 1 ) & 0x1) << 7;
diepint.d32 = USB_OTG_READ_REG32(&pdev->regs.INEP_REGS[1]->DIEPINT) & msk;
if ( diepint.b.xfercompl )
{
fifoemptymsk = 0x1 << 1;
USB_OTG_MODIFY_REG32(&pdev->regs.DREGS->DIEPEMPMSK, fifoemptymsk, 0);
CLEAR_IN_EP_INTR(1, xfercompl);
/* TX COMPLETE */
USBD_DCD_INT_fops->DataInStage(pdev , 1);
}
if ( diepint.b.epdisabled )
{
CLEAR_IN_EP_INTR(1, epdisabled);
}
if ( diepint.b.timeout )
{
CLEAR_IN_EP_INTR(1, timeout);
}
if (diepint.b.intktxfemp)
{
CLEAR_IN_EP_INTR(1, intktxfemp);
}
if (diepint.b.inepnakeff)
{
CLEAR_IN_EP_INTR(1, inepnakeff);
}
if (diepint.b.emptyintr)
{
DCD_WriteEmptyTxFifo(pdev , 1);
CLEAR_IN_EP_INTR(1, emptyintr);
}
return 1;
}
#endif
/**
* @brief STM32_USBF_OTG_ISR_Handler
* handles all USB Interrupts
* @param pdev: device instance
* @retval status
*/
uint32_t USBD_OTG_ISR_Handler (USB_OTG_CORE_HANDLE *pdev)
{
USB_OTG_GINTSTS_TypeDef gintr_status;
uint32_t retval = 0;
if (USB_OTG_IsDeviceMode(pdev)) /* ensure that we are in device mode */
{
gintr_status.d32 = USB_OTG_ReadCoreItr(pdev);
if (!gintr_status.d32) /* avoid spurious interrupt */
{
return 0;
}
if (gintr_status.b.outepintr)
{
retval |= DCD_HandleOutEP_ISR(pdev);
}
if (gintr_status.b.inepint)
{
retval |= DCD_HandleInEP_ISR(pdev);
}
if (gintr_status.b.modemismatch)
{
USB_OTG_GINTSTS_TypeDef gintsts;
/* Clear interrupt */
gintsts.d32 = 0;
gintsts.b.modemismatch = 1;
USB_OTG_WRITE_REG32(&pdev->regs.GREGS->GINTSTS, gintsts.d32);
}
if (gintr_status.b.wkupintr)
{
retval |= DCD_HandleResume_ISR(pdev);
}
if (gintr_status.b.usbsuspend)
{
retval |= DCD_HandleUSBSuspend_ISR(pdev);
}
if (gintr_status.b.sofintr)
{
retval |= DCD_HandleSof_ISR(pdev);
}
if (gintr_status.b.rxstsqlvl)
{
retval |= DCD_HandleRxStatusQueueLevel_ISR(pdev);
}
if (gintr_status.b.usbreset)
{
retval |= DCD_HandleUsbReset_ISR(pdev);
}
if (gintr_status.b.enumdone)
{
retval |= DCD_HandleEnumDone_ISR(pdev);
}
if (gintr_status.b.incomplisoin)
{
retval |= DCD_IsoINIncomplete_ISR(pdev);
}
if (gintr_status.b.incomplisoout)
{
retval |= DCD_IsoOUTIncomplete_ISR(pdev);
}
#ifdef VBUS_SENSING_ENABLED
if (gintr_status.b.sessreqintr)
{
retval |= DCD_SessionRequest_ISR(pdev);
}
if (gintr_status.b.otgintr)
{
retval |= DCD_OTG_ISR(pdev);
}
#endif
}
return retval;
}
#ifdef VBUS_SENSING_ENABLED
/**
* @brief DCD_SessionRequest_ISR
* Indicates that the USB_OTG controller has detected a connection
* @param pdev: device instance
* @retval status
*/
static uint32_t DCD_SessionRequest_ISR(USB_OTG_CORE_HANDLE *pdev)
{
USB_OTG_GINTSTS_TypeDef gintsts;
USBD_DCD_INT_fops->DevConnected (pdev);
/* Clear interrupt */
gintsts.d32 = 0;
gintsts.b.sessreqintr = 1;
USB_OTG_WRITE_REG32 (&pdev->regs.GREGS->GINTSTS, gintsts.d32);
return 1;
}
/**
* @brief DCD_OTG_ISR
* Indicates that the USB_OTG controller has detected an OTG event:
* used to detect the end of session i.e. disconnection
* @param pdev: device instance
* @retval status
*/
static uint32_t DCD_OTG_ISR(USB_OTG_CORE_HANDLE *pdev)
{
USB_OTG_GOTGINT_TypeDef gotgint;
gotgint.d32 = USB_OTG_READ_REG32(&pdev->regs.GREGS->GOTGINT);
if (gotgint.b.sesenddet)
{
USBD_DCD_INT_fops->DevDisconnected (pdev);
}
/* Clear OTG interrupt */
USB_OTG_WRITE_REG32(&pdev->regs.GREGS->GOTGINT, gotgint.d32);
return 1;
}
#endif
/**
* @brief DCD_HandleResume_ISR
* Indicates that the USB_OTG controller has detected a resume or
* remote Wake-up sequence
* @param pdev: device instance
* @retval status
*/
static uint32_t DCD_HandleResume_ISR(USB_OTG_CORE_HANDLE *pdev)
{
USB_OTG_GINTSTS_TypeDef gintsts;
USB_OTG_DCTL_TypeDef devctl;
USB_OTG_PCGCCTL_TypeDef power;
if(pdev->cfg.low_power)
{
/* un-gate USB Core clock */
power.d32 = USB_OTG_READ_REG32(pdev->regs.PCGCCTL);
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power.b.gatehclk = 0;
power.b.stoppclk = 0;
USB_OTG_WRITE_REG32(pdev->regs.PCGCCTL, power.d32);
}
/* Clear the Remote Wake-up Signaling */
devctl.d32 = 0;
devctl.b.rmtwkupsig = 1;
USB_OTG_MODIFY_REG32(&pdev->regs.DREGS->DCTL, devctl.d32, 0);
/* Inform upper layer by the Resume Event */
USBD_DCD_INT_fops->Resume (pdev);
/* Clear interrupt */
gintsts.d32 = 0;
gintsts.b.wkupintr = 1;
USB_OTG_WRITE_REG32 (&pdev->regs.GREGS->GINTSTS, gintsts.d32);
return 1;
}
/**
* @brief USB_OTG_HandleUSBSuspend_ISR
* Indicates that SUSPEND state has been detected on the USB
* @param pdev: device instance
* @retval status
*/
static uint32_t DCD_HandleUSBSuspend_ISR(USB_OTG_CORE_HANDLE *pdev)
{
USB_OTG_GINTSTS_TypeDef gintsts;
USB_OTG_PCGCCTL_TypeDef power;
USB_OTG_DSTS_TypeDef dsts;
__IO uint8_t prev_status = 0;
prev_status = pdev->dev.device_status;
USBD_DCD_INT_fops->Suspend (pdev);
dsts.d32 = USB_OTG_READ_REG32(&pdev->regs.DREGS->DSTS);
/* Clear interrupt */
gintsts.d32 = 0;
gintsts.b.usbsuspend = 1;
USB_OTG_WRITE_REG32(&pdev->regs.GREGS->GINTSTS, gintsts.d32);
if((pdev->cfg.low_power) && (dsts.b.suspsts == 1) &&
(pdev->dev.connection_status == 1) &&
(prev_status == USB_OTG_CONFIGURED))
{
/* switch-off the clocks */
power.d32 = 0;
power.b.stoppclk = 1;
USB_OTG_MODIFY_REG32(pdev->regs.PCGCCTL, 0, power.d32);
power.b.gatehclk = 1;
USB_OTG_MODIFY_REG32(pdev->regs.PCGCCTL, 0, power.d32);
/* Request to enter Sleep mode after exit from current ISR */
SCB->SCR |= (SCB_SCR_SLEEPDEEP_Msk | SCB_SCR_SLEEPONEXIT_Msk);
}
return 1;
}
/**
* @brief DCD_HandleInEP_ISR
* Indicates that an IN EP has a pending Interrupt
* @param pdev: device instance
* @retval status
*/
static uint32_t DCD_HandleInEP_ISR(USB_OTG_CORE_HANDLE *pdev)
{
USB_OTG_DIEPINTn_TypeDef diepint;
uint32_t ep_intr;
uint32_t epnum = 0;
uint32_t fifoemptymsk;
diepint.d32 = 0;
ep_intr = USB_OTG_ReadDevAllInEPItr(pdev);
while ( ep_intr )
{
if (ep_intr&0x1) /* In ITR */
{
diepint.d32 = DCD_ReadDevInEP(pdev , epnum); /* Get In ITR status */
if ( diepint.b.xfercompl )
{
fifoemptymsk = 0x1 << epnum;
USB_OTG_MODIFY_REG32(&pdev->regs.DREGS->DIEPEMPMSK, fifoemptymsk, 0);
CLEAR_IN_EP_INTR(epnum, xfercompl);
/* TX COMPLETE */
USBD_DCD_INT_fops->DataInStage(pdev , epnum);
if (pdev->cfg.dma_enable == 1)
{
if((epnum == 0) && (pdev->dev.device_state == USB_OTG_EP0_STATUS_IN))
{
/* prepare to rx more setup packets */
USB_OTG_EP0_OutStart(pdev);
}
}
}
if ( diepint.b.timeout )
{
CLEAR_IN_EP_INTR(epnum, timeout);
}
if (diepint.b.intktxfemp)
{
CLEAR_IN_EP_INTR(epnum, intktxfemp);
}
if (diepint.b.inepnakeff)
{
CLEAR_IN_EP_INTR(epnum, inepnakeff);
}
if ( diepint.b.epdisabled )
{
CLEAR_IN_EP_INTR(epnum, epdisabled);
}
if (diepint.b.emptyintr)
{
DCD_WriteEmptyTxFifo(pdev , epnum);
CLEAR_IN_EP_INTR(epnum, emptyintr);
}
}
epnum++;
ep_intr >>= 1;
}
return 1;
}
/**
* @brief DCD_HandleOutEP_ISR
* Indicates that an OUT EP has a pending Interrupt
* @param pdev: device instance
* @retval status
*/
static uint32_t DCD_HandleOutEP_ISR(USB_OTG_CORE_HANDLE *pdev)
{
uint32_t ep_intr;
USB_OTG_DOEPINTn_TypeDef doepint;
USB_OTG_DEPXFRSIZ_TypeDef deptsiz;
uint32_t epnum = 0;
doepint.d32 = 0;
/* Read in the device interrupt bits */
ep_intr = USB_OTG_ReadDevAllOutEp_itr(pdev);
while ( ep_intr )
{
if (ep_intr&0x1)
{
doepint.d32 = USB_OTG_ReadDevOutEP_itr(pdev, epnum);
/* Transfer complete */
if ( doepint.b.xfercompl )
{
/* Clear the bit in DOEPINTn for this interrupt */
CLEAR_OUT_EP_INTR(epnum, xfercompl);
if (pdev->cfg.dma_enable == 1)
{
deptsiz.d32 = USB_OTG_READ_REG32(&(pdev->regs.OUTEP_REGS[epnum]->DOEPTSIZ));
/*ToDo : handle more than one single MPS size packet */
pdev->dev.out_ep[epnum].xfer_count = pdev->dev.out_ep[epnum].maxpacket - \
deptsiz.b.xfersize;
}
/* Inform upper layer: data ready */
/* RX COMPLETE */
USBD_DCD_INT_fops->DataOutStage(pdev , epnum);
if (pdev->cfg.dma_enable == 1)
{
if((epnum == 0) && (pdev->dev.device_state == USB_OTG_EP0_STATUS_OUT))
{
/* prepare to rx more setup packets */
USB_OTG_EP0_OutStart(pdev);
}
}
}
/* Endpoint disable */
if ( doepint.b.epdisabled )
{
/* Clear the bit in DOEPINTn for this interrupt */
CLEAR_OUT_EP_INTR(epnum, epdisabled);
}
/* Setup Phase Done (control EPs) */
if ( doepint.b.setup )
{
/* inform the upper layer that a setup packet is available */
/* SETUP COMPLETE */
USBD_DCD_INT_fops->SetupStage(pdev);
CLEAR_OUT_EP_INTR(epnum, setup);
}
}
epnum++;
ep_intr >>= 1;
}
return 1;
}
/**
* @brief DCD_HandleSof_ISR
* Handles the SOF Interrupts
* @param pdev: device instance
* @retval status
*/
static uint32_t DCD_HandleSof_ISR(USB_OTG_CORE_HANDLE *pdev)
{
USB_OTG_GINTSTS_TypeDef GINTSTS;
USBD_DCD_INT_fops->SOF(pdev);
/* Clear interrupt */
GINTSTS.d32 = 0;
GINTSTS.b.sofintr = 1;
USB_OTG_WRITE_REG32 (&pdev->regs.GREGS->GINTSTS, GINTSTS.d32);
return 1;
}
/**
* @brief DCD_HandleRxStatusQueueLevel_ISR
* Handles the Rx Status Queue Level Interrupt
* @param pdev: device instance
* @retval status
*/
static uint32_t DCD_HandleRxStatusQueueLevel_ISR(USB_OTG_CORE_HANDLE *pdev)
{
USB_OTG_GINTMSK_TypeDef int_mask;
USB_OTG_DRXSTS_TypeDef status;
USB_OTG_EP *ep;
/* Disable the Rx Status Queue Level interrupt */
int_mask.d32 = 0;
int_mask.b.rxstsqlvl = 1;
USB_OTG_MODIFY_REG32( &pdev->regs.GREGS->GINTMSK, int_mask.d32, 0);
/* Get the Status from the top of the FIFO */
status.d32 = USB_OTG_READ_REG32( &pdev->regs.GREGS->GRXSTSP );
ep = &pdev->dev.out_ep[status.b.epnum];
switch (status.b.pktsts)
{
case STS_GOUT_NAK:
break;
case STS_DATA_UPDT:
if (status.b.bcnt)
{
USB_OTG_ReadPacket(pdev,ep->xfer_buff, status.b.bcnt);
ep->xfer_buff += status.b.bcnt;
ep->xfer_count += status.b.bcnt;
}
break;
case STS_XFER_COMP:
break;
case STS_SETUP_COMP:
break;
case STS_SETUP_UPDT:
/* Copy the setup packet received in FIFO into the setup buffer in RAM */
USB_OTG_ReadPacket(pdev , pdev->dev.setup_packet, 8);
ep->xfer_count += status.b.bcnt;
break;
default:
break;
}
/* Enable the Rx Status Queue Level interrupt */
USB_OTG_MODIFY_REG32( &pdev->regs.GREGS->GINTMSK, 0, int_mask.d32);
return 1;
}
/**
* @brief DCD_WriteEmptyTxFifo
* check FIFO for the next packet to be loaded
* @param pdev: device instance
* @retval status
*/
static uint32_t DCD_WriteEmptyTxFifo(USB_OTG_CORE_HANDLE *pdev, uint32_t epnum)
{
USB_OTG_DTXFSTSn_TypeDef txstatus;
USB_OTG_EP *ep;
uint32_t len = 0;
uint32_t len32b;
txstatus.d32 = 0;
ep = &pdev->dev.in_ep[epnum];
len = ep->xfer_len - ep->xfer_count;
if (len > ep->maxpacket)
{
len = ep->maxpacket;
}
len32b = (len + 3) / 4;
txstatus.d32 = USB_OTG_READ_REG32( &pdev->regs.INEP_REGS[epnum]->DTXFSTS);
while (txstatus.b.txfspcavail > len32b &&
ep->xfer_count < ep->xfer_len &&
ep->xfer_len != 0)
{
/* Write the FIFO */
len = ep->xfer_len - ep->xfer_count;
if (len > ep->maxpacket)
{
len = ep->maxpacket;
}
len32b = (len + 3) / 4;
USB_OTG_WritePacket (pdev , ep->xfer_buff, epnum, len);
ep->xfer_buff += len;
ep->xfer_count += len;
// this code turns off the "empty interrupt"
// without it the USB is subject to perpetual interrupts
// see my.st.com, "Yet another STM32F105/7 USB OTG driver issue (VCP device)"
// this code might also work if put in DCD_HandleInEP_ISR
if (ep->xfer_count >= ep->xfer_len) {
uint32_t fifoemptymsk = 1 << ep->num;
USB_OTG_MODIFY_REG32(&pdev->regs.DREGS->DIEPEMPMSK, fifoemptymsk, 0);
break;
}
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txstatus.d32 = USB_OTG_READ_REG32(&pdev->regs.INEP_REGS[epnum]->DTXFSTS);
}
return 1;
}
/**
* @brief DCD_HandleUsbReset_ISR
* This interrupt occurs when a USB Reset is detected
* @param pdev: device instance
* @retval status
*/
static uint32_t DCD_HandleUsbReset_ISR(USB_OTG_CORE_HANDLE *pdev)
{
USB_OTG_DAINT_TypeDef daintmsk;
USB_OTG_DOEPMSK_TypeDef doepmsk;
USB_OTG_DIEPMSK_TypeDef diepmsk;
USB_OTG_DCFG_TypeDef dcfg;
USB_OTG_DCTL_TypeDef dctl;
USB_OTG_GINTSTS_TypeDef gintsts;
uint32_t i;
dctl.d32 = 0;
daintmsk.d32 = 0;
doepmsk.d32 = 0;
diepmsk.d32 = 0;
dcfg.d32 = 0;
gintsts.d32 = 0;
/* Clear the Remote Wake-up Signaling */
dctl.b.rmtwkupsig = 1;
USB_OTG_MODIFY_REG32(&pdev->regs.DREGS->DCTL, dctl.d32, 0 );
/* Flush the Tx FIFO */
USB_OTG_FlushTxFifo(pdev , 0 );
for (i = 0; i < pdev->cfg.dev_endpoints ; i++)
{
USB_OTG_WRITE_REG32( &pdev->regs.INEP_REGS[i]->DIEPINT, 0xFF);
USB_OTG_WRITE_REG32( &pdev->regs.OUTEP_REGS[i]->DOEPINT, 0xFF);
}
USB_OTG_WRITE_REG32( &pdev->regs.DREGS->DAINT, 0xFFFFFFFF );
daintmsk.ep.in = 1;
daintmsk.ep.out = 1;
USB_OTG_WRITE_REG32( &pdev->regs.DREGS->DAINTMSK, daintmsk.d32 );
doepmsk.b.setup = 1;
doepmsk.b.xfercompl = 1;
doepmsk.b.epdisabled = 1;
USB_OTG_WRITE_REG32( &pdev->regs.DREGS->DOEPMSK, doepmsk.d32 );
#ifdef USB_OTG_HS_DEDICATED_EP1_ENABLED
USB_OTG_WRITE_REG32( &pdev->regs.DREGS->DOUTEP1MSK, doepmsk.d32 );
#endif
diepmsk.b.xfercompl = 1;
diepmsk.b.timeout = 1;
diepmsk.b.epdisabled = 1;
USB_OTG_WRITE_REG32( &pdev->regs.DREGS->DIEPMSK, diepmsk.d32 );
#ifdef USB_OTG_HS_DEDICATED_EP1_ENABLED
USB_OTG_WRITE_REG32( &pdev->regs.DREGS->DINEP1MSK, diepmsk.d32 );
#endif
/* Reset Device Address */
dcfg.d32 = USB_OTG_READ_REG32( &pdev->regs.DREGS->DCFG);
dcfg.b.devaddr = 0;
USB_OTG_WRITE_REG32( &pdev->regs.DREGS->DCFG, dcfg.d32);
/* setup EP0 to receive SETUP packets */
USB_OTG_EP0_OutStart(pdev);
/* Clear interrupt */
gintsts.d32 = 0;
gintsts.b.usbreset = 1;
USB_OTG_WRITE_REG32 (&pdev->regs.GREGS->GINTSTS, gintsts.d32);
/*Reset internal state machine */
USBD_DCD_INT_fops->Reset(pdev);
return 1;
}
/**
* @brief DCD_HandleEnumDone_ISR
* Read the device status register and set the device speed
* @param pdev: device instance
* @retval status
*/
static uint32_t DCD_HandleEnumDone_ISR(USB_OTG_CORE_HANDLE *pdev)
{
USB_OTG_GINTSTS_TypeDef gintsts;
USB_OTG_GUSBCFG_TypeDef gusbcfg;
USB_OTG_EP0Activate(pdev);
/* Set USB turn-around time based on device speed and PHY interface. */
gusbcfg.d32 = USB_OTG_READ_REG32(&pdev->regs.GREGS->GUSBCFG);
/* Full or High speed */
if ( USB_OTG_GetDeviceSpeed(pdev) == USB_SPEED_HIGH)
{
pdev->cfg.speed = USB_OTG_SPEED_HIGH;
pdev->cfg.mps = USB_OTG_HS_MAX_PACKET_SIZE ;
gusbcfg.b.usbtrdtim = 9;
}
else
{
pdev->cfg.speed = USB_OTG_SPEED_FULL;
pdev->cfg.mps = USB_OTG_FS_MAX_PACKET_SIZE ;
gusbcfg.b.usbtrdtim = 5;
}
USB_OTG_WRITE_REG32(&pdev->regs.GREGS->GUSBCFG, gusbcfg.d32);
/* Clear interrupt */
gintsts.d32 = 0;
gintsts.b.enumdone = 1;
USB_OTG_WRITE_REG32( &pdev->regs.GREGS->GINTSTS, gintsts.d32 );
return 1;
}
/**
* @brief DCD_IsoINIncomplete_ISR
* handle the ISO IN incomplete interrupt
* @param pdev: device instance
* @retval status
*/
static uint32_t DCD_IsoINIncomplete_ISR(USB_OTG_CORE_HANDLE *pdev)
{
USB_OTG_GINTSTS_TypeDef gintsts;
gintsts.d32 = 0;
USBD_DCD_INT_fops->IsoINIncomplete (pdev);
/* Clear interrupt */
gintsts.b.incomplisoin = 1;
USB_OTG_WRITE_REG32(&pdev->regs.GREGS->GINTSTS, gintsts.d32);
return 1;
}
/**
* @brief DCD_IsoOUTIncomplete_ISR
* handle the ISO OUT incomplete interrupt
* @param pdev: device instance
* @retval status
*/
static uint32_t DCD_IsoOUTIncomplete_ISR(USB_OTG_CORE_HANDLE *pdev)
{
USB_OTG_GINTSTS_TypeDef gintsts;
gintsts.d32 = 0;
USBD_DCD_INT_fops->IsoOUTIncomplete (pdev);
/* Clear interrupt */
gintsts.b.incomplisoout = 1;
USB_OTG_WRITE_REG32(&pdev->regs.GREGS->GINTSTS, gintsts.d32);
return 1;
}
/**
* @brief DCD_ReadDevInEP
* Reads ep flags
* @param pdev: device instance
* @retval status
*/
static uint32_t DCD_ReadDevInEP (USB_OTG_CORE_HANDLE *pdev, uint8_t epnum)
{
uint32_t v, msk, emp;
msk = USB_OTG_READ_REG32(&pdev->regs.DREGS->DIEPMSK);
emp = USB_OTG_READ_REG32(&pdev->regs.DREGS->DIEPEMPMSK);
msk |= ((emp >> epnum) & 0x1) << 7;
v = USB_OTG_READ_REG32(&pdev->regs.INEP_REGS[epnum]->DIEPINT) & msk;
return v;
}
/**
* @}
*/
/**
* @}
*/
/**
* @}
*/
/************************ (C) COPYRIGHT STMicroelectronics *****END OF FILE****/