Adds class implementation for use STM32F4xx OTG_HS in FS mode
Fork of USBDevice by
targets/TARGET_Silicon_Labs/src/em_usbdep.c
- Committer:
- ua1arn
- Date:
- 2018-08-03
- Revision:
- 78:b881d8ac258a
- Parent:
- 71:53949e6131f6
File content as of revision 78:b881d8ac258a:
/**************************************************************************//** * @file em_usbdep.c * @brief USB protocol stack library, USB device endpoint 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_usbtypes.h" #include "em_usbhal.h" #include "em_usbd.h" #ifdef USB_USE_PRINTF static const char *epStatusStr[] = { "IDLE","TRANS","RECV","IN_S","OUT_S" }; #endif /** @cond DO_NOT_INCLUDE_WITH_DOXYGEN */ /* * USBDEP_Ep0Handler() is called each time a packet has been transmitted * or recieved on the default endpoint. * A state machine navigate us through the phases of a control transfer * according to "chapter 9" in the USB spec. */ #if !defined( USB_DOEP0INT_STUPPKTRCVD ) void USBDEP_Ep0Handler( USBD_Device_TypeDef *device ) { int status; USBD_Ep_TypeDef *ep; static bool statusIn; static uint32_t xferred; static USB_XferCompleteCb_TypeDef callback; ep = &device->ep[ 0 ]; #ifdef __MBED__ (void)xferred; (void)statusIn; (void)status; USB_PRINTF("USBDEP: ep0 %s, rem %ld, z %d\n", epStatusStr[ep->state], ep->remaining, ep->zlp); if ( ( ep->state == D_EP_TRANSMITTING ) || ( ep->state == D_EP_RECEIVING ) ) { ep->state = D_EP_IDLE; if ( ep->xferCompleteCb ) { callback = ep->xferCompleteCb; ep->xferCompleteCb = NULL; callback( USB_STATUS_OK, ep->xferred, ep->remaining ); } USBDHAL_ReenableEp0Setup(device); } else { device->callbacks->setupCmd(device->setup); } #else /* not __MBED__ */ switch ( ep->state ) { case D_EP_IDLE: ep->remaining = 0; ep->zlp = 0; callback = NULL; statusIn = false; status = USBDCH9_SetupCmd( device ); if ( status == USB_STATUS_REQ_ERR ) { ep->in = true; USBDHAL_StallEp( ep ); /* Stall Ep0 IN */ ep->in = false; /* OUT for next SETUP */ USBDHAL_StallEp( ep ); /* Stall Ep0 OUT */ USBDHAL_ReenableEp0Setup( device ); /* Prepare for next SETUP packet*/ } else /* ( Status == USB_STATUS_OK ) */ { if ( (ep->state == D_EP_RECEIVING) || (ep->state == D_EP_TRANSMITTING) ) { callback = ep->xferCompleteCb; } if ( ep->state != D_EP_RECEIVING ) { if ( ep->remaining ) { /* Data will be sent to host, check if a ZLP must be appended */ if ( ( ep->remaining < device->setup->wLength ) && ( ep->remaining % ep->packetSize == 0 ) ) { ep->zlp = 1; } } else { /* Prepare for next SETUP packet*/ USBDHAL_ReenableEp0Setup( device ); /* No data stage, a ZLP may have been sent. If not, send one */ xferred = 0; if ( ep->zlp == 0 ) { USBD_Write( 0, NULL, 0, NULL ); /* ACK to host */ ep->state = D_EP0_IN_STATUS; } else { ep->state = D_EP_IDLE; ep->in = false; /* OUT for next SETUP */ } } } } break; case D_EP_RECEIVING: if ( ep->remaining ) { /* There is more data to receive */ USBD_ReArmEp0( ep ); } else { status = USB_STATUS_OK; if ( callback != NULL ) { status = callback( USB_STATUS_OK, ep->xferred, 0 ); callback = NULL; } if ( status != USB_STATUS_OK ) { ep->in = true; USBDHAL_StallEp( ep ); /* Stall Ep0 IN */ ep->in = false; /* OUT for next SETUP */ USBDHAL_StallEp( ep ); /* Stall Ep0 OUT */ USBDHAL_ReenableEp0Setup( device ); /* Prepare for next SETUP pkt. */ ep->state = D_EP_IDLE; } else /* Everything OK, send a ZLP (ACK) to host */ { USBDHAL_ReenableEp0Setup( device );/* Prepare for next SETUP packet*/ ep->state = D_EP_IDLE; /* USBD_Write() sets state back*/ /* to EP_TRANSMITTING */ USBD_Write( 0, NULL, 0, NULL ); ep->state = D_EP0_IN_STATUS; } } break; case D_EP_TRANSMITTING: if ( ep->remaining ) { /* There is more data to transmit */ USBD_ReArmEp0( ep ); } else { /* All data transferred, is a ZLP packet needed ? */ if ( ep->zlp == 1 ) { xferred = ep->xferred; ep->state = D_EP_IDLE; /* USBD_Write() sets state back */ /* to EP_TRANSMITTING */ USBD_Write( 0, NULL, 0, NULL ); /* Send ZLP */ ep->zlp = 2; } else { if ( ep->zlp == 0 ) { xferred = ep->xferred; } ep->state = D_EP_IDLE; USBD_Read( 0, NULL, 0, NULL ); /* Get ZLP packet (ACK) from host */ statusIn = true; ep->state = D_EP0_OUT_STATUS; } } break; case D_EP0_IN_STATUS: case D_EP0_OUT_STATUS: if ( statusIn ) { USBDHAL_ReenableEp0Setup( device ); } if ( callback != NULL ) { callback( USB_STATUS_OK, xferred, 0 ); } ep->state = D_EP_IDLE; ep->in = false; /* OUT for next SETUP */ break; default: EFM_ASSERT( false ); break; } #endif /* __MBED__ */ } #endif #if defined( USB_DOEP0INT_STUPPKTRCVD ) void USBDEP_Ep0Handler( USBD_Device_TypeDef *device ) { int status; USBD_Ep_TypeDef *ep; static uint32_t xferred; static USB_XferCompleteCb_TypeDef callback; #ifdef __MBED__ (void)xferred; (void)status; ep = &device->ep[ 0 ]; if ( ( ep->state == D_EP_TRANSMITTING ) || ( ep->state == D_EP_RECEIVING ) ) { ep->state = D_EP_IDLE; if ( ep->xferCompleteCb ) { callback = ep->xferCompleteCb; ep->xferCompleteCb = NULL; callback( USB_STATUS_OK, ep->xferred, ep->remaining ); } USBDHAL_StartEp0Setup( dev ); } else { device->callbacks->setupCmd(device->setup); } #else ep = &device->ep[ 0 ]; switch ( ep->state ) { case D_EP_IDLE: ep->zlp = 0; ep->remaining = 0; callback = NULL; status = USBDCH9_SetupCmd( device ); if ( status == USB_STATUS_REQ_ERR ) { ep->in = true; USBDHAL_StallEp( ep ); /* Stall Ep0 IN */ ep->in = false; /* OUT for next SETUP */ USBDHAL_StallEp( ep ); /* Stall Ep0 OUT */ USBDHAL_StartEp0Setup( dev ); /* Prepare for next SETUP packet*/ } else /* ( Status == USB_STATUS_OK ) */ { if ( (ep->state == D_EP_RECEIVING) || (ep->state == D_EP_TRANSMITTING) ) { callback = ep->xferCompleteCb; } if ( ep->state != D_EP_RECEIVING ) { if ( ep->remaining ) { /* Data will be sent to host, check if a ZLP must be appended */ if ( ( ep->remaining < device->setup->wLength ) && ( ep->remaining % ep->packetSize == 0 ) ) { ep->zlp = 1; } } else { /* No data stage, a ZLP may have been sent. If not, send one */ xferred = 0; if ( ep->zlp == 0 ) { ep->state = D_EP_IDLE; USBD_Write( 0, NULL, 0, NULL ); /* ACK to host */ ep->state = D_EP0_IN_STATUS; } } } } break; case D_EP_RECEIVING: if ( ep->remaining ) { ep->in = false; USBD_ReArmEp0( ep ); } else { status = USB_STATUS_OK; if ( callback != NULL ) { status = callback( USB_STATUS_OK, ep->xferred, 0 ); callback = NULL; } if ( status != USB_STATUS_OK ) { ep->in = true; USBDHAL_StallEp( ep ); /* Stall Ep0 IN */ ep->in = false; /* OUT for next SETUP */ USBDHAL_StallEp( ep ); /* Stall Ep0 OUT */ USBDHAL_StartEp0Setup( dev ); /* Prepare for next SETUP pkt. */ ep->state = D_EP_IDLE; } else { USBDHAL_StartEp0Setup( dev ); /* Prepare for next SETUP packet*/ ep->state = D_EP_IDLE; /* USBD_Write() sets state back */ /* to EP_TRANSMITTING */ USBD_Write( 0, NULL, 0, NULL ); ep->state = D_EP0_IN_STATUS; } } break; case D_EP_TRANSMITTING: if ( ep->remaining ) { ep->in = true; USBD_ReArmEp0( ep ); } else { if ( ep->zlp == 1 ) { xferred = ep->xferred; ep->state = D_EP_IDLE; /* USBD_Write() sets state back */ /* to EP_TRANSMITTING */ USBD_Write( 0, NULL, 0, NULL ); /* Send ZLP */ ep->zlp = 2; } else { if ( ep->zlp == 0 ) { xferred = ep->xferred; } ep->state = D_EP_IDLE; USBD_Read( 0, NULL, 0, NULL ); /* Get ZLP packet (ACK) from host */ ep->state = D_EP0_OUT_STATUS; } } break; case D_EP0_IN_STATUS: if ( ( USB->DOEP0CTL & USB_DOEP0CTL_EPENA ) == 0 ) { /* Prepare for more SETUP Packets */ USBDHAL_StartEp0Setup( dev ); } if ( callback != NULL ) { callback( USB_STATUS_OK, xferred, 0 ); } ep->state = D_EP_IDLE; ep->in = false; /* OUT for next SETUP */ break; case D_EP0_OUT_STATUS: USBDHAL_StartEp0Setup( dev ); /* Prepare for more SETUP Packets */ if ( callback != NULL ) { callback( USB_STATUS_OK, xferred, 0 ); } ep->state = D_EP_IDLE; ep->in = false; /* OUT for next SETUP */ break; } #endif /* __MBED__ */ } #endif /* * USBDEP_EpHandler() is called each time a packet has been transmitted * or recieved on an endpoint other than the default endpoint. */ void USBDEP_EpHandler( uint8_t epAddr ) { USB_XferCompleteCb_TypeDef callback; USBD_Ep_TypeDef *ep = USBD_GetEpFromAddr( epAddr ); if ( ( ep->state == D_EP_TRANSMITTING ) || ( ep->state == D_EP_RECEIVING ) ) { ep->state = D_EP_IDLE; if ( ep->xferCompleteCb ) { callback = ep->xferCompleteCb; ep->xferCompleteCb = NULL; callback( USB_STATUS_OK, ep->xferred, ep->remaining ); } } else { EFM_ASSERT( false ); } } /** @endcond */ #endif /* defined( USB_DEVICE ) */ #endif /* defined( USB_PRESENT ) && ( USB_COUNT == 1 ) */