Esempio n. 1
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/*******************************************************************************
  MASS_Reset: Mass Storage reset routine.
*******************************************************************************/
void MASS_Reset()
{
  Device_Info.Current_Configuration = 0; // Set the device as not configured
  pInformation->Current_Feature = MASS_ConfigDescriptor[7]; // Current Feature initialization
  SetBTABLE(BTABLE_ADDRESS);
  // Initialize Endpoint 0
  SetEPType(ENDP0, EP_CONTROL);
  SetEPTxStatus(ENDP0, EP_TX_NAK);
  SetEPRxAddr(ENDP0, ENDP0_RXADDR);
  SetEPRxCount(ENDP0, Device_Property.MaxPacketSize);
  SetEPTxAddr(ENDP0, ENDP0_TXADDR);
  Clear_Status_Out(ENDP0);
  SetEPRxValid(ENDP0);
  //Initialize Endpoint 1
  SetEPType(ENDP1, EP_BULK);
  SetEPTxAddr(ENDP1, ENDP1_TXADDR);
  SetEPTxStatus(ENDP1, EP_TX_NAK);
  SetEPRxStatus(ENDP1, EP_RX_DIS);
  // Initialize Endpoint 2
  SetEPType(ENDP2, EP_BULK);
  SetEPRxAddr(ENDP2, ENDP2_RXADDR);
  SetEPRxCount(ENDP2, Device_Property.MaxPacketSize);
  SetEPRxStatus(ENDP2, EP_RX_VALID);
  SetEPTxStatus(ENDP2, EP_TX_DIS);

  SetEPRxCount(ENDP0, Device_Property.MaxPacketSize);
  SetEPRxValid(ENDP0);
  // Set the device to response on default address
  SetDeviceAddress(0);

  bDeviceState = ATTACHED;

  CBW.dSignature = BOT_CBW_SIGNATURE;
  Bot_State = BOT_IDLE;
}
Esempio n. 2
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// Ресет USB
void SomeDev_Reset()
{
	// Установка девайса в несконфигурированное состояние
	Device_Info.Current_Configuration = 0;
	
	// Инициализация CurrentFeature
	pInformation->Current_Feature = SomeDev_ConfigDescriptor[7];
	
#ifdef STM32F10X_CL   
	
	// EP0 уже сконфигурирован в USB_SIL_Init()
	
	// $USBCONFIG - инициализация ендпойнтов
	
	// EP1 IN - Bulk endpoint 
	OTG_DEV_EP_Init(EP1_IN, OTG_DEV_EP_TYPE_BULK, BULK_MAX_PACKET_SIZE);
	
	// EP2 OUT - Bulk endpoint 
	OTG_DEV_EP_Init(EP2_OUT, OTG_DEV_EP_TYPE_BULK, BULK_MAX_PACKET_SIZE); 
	
	
#else 
	
	// $USBCONFIG - инициализация ендпойнтов
	
	SetBTABLE(BTABLE_ADDRESS);
	
	// Инициализация Endpoint 0
	SetEPType(ENDP0, EP_CONTROL);
	SetEPTxStatus(ENDP0, EP_TX_NAK);
	SetEPRxAddr(ENDP0, ENDP0_RXADDR);
	SetEPRxCount(ENDP0, Device_Property.MaxPacketSize);
	SetEPTxAddr(ENDP0, ENDP0_TXADDR);
	Clear_Status_Out(ENDP0);
	SetEPRxValid(ENDP0);
	
	// Инициализация Endpoint 1
	SetEPType(ENDP1, EP_BULK);
	SetEPTxAddr(ENDP1, ENDP1_TXADDR);
	SetEPTxStatus(ENDP1, EP_TX_NAK);
	SetEPRxStatus(ENDP1, EP_RX_DIS);
	
	// Инициализация Endpoint 2
	SetEPType(ENDP2, EP_BULK);
	SetEPRxAddr(ENDP2, ENDP2_RXADDR);
	SetEPRxCount(ENDP2, Device_Property.MaxPacketSize);
	SetEPRxStatus(ENDP2, EP_RX_VALID);
	SetEPTxStatus(ENDP2, EP_TX_DIS);
	
	
	SetEPRxCount(ENDP0, Device_Property.MaxPacketSize);
	SetEPRxValid(ENDP0);
	
	// Установка дефолтного адреса
	SetDeviceAddress(0);
#endif /}
	
	bDeviceState = ATTACHED;
}
Esempio n. 3
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/*******************************************************************************
* Function Name  : MASS_Reset
* Description    : Mass Storage reset routine.
* Input          : None.
* Output         : None.
* Return         : None.
*******************************************************************************/
void MASS_Reset()
{
  /* Set the device as not configured */
  Device_Info.Current_Configuration = 0;

  /* Current Feature initialization */
  pInformation->Current_Feature = MASS_ConfigDescriptor[7];

#ifdef STM32F10X_CL   
  
  /* EP0 is already configured by USB_SIL_Init() function */

  /* Init EP1 IN as Bulk endpoint */
  OTG_DEV_EP_Init(EP1_IN, OTG_DEV_EP_TYPE_BULK, BULK_MAX_PACKET_SIZE);
  
  /* Init EP2 OUT as Bulk endpoint */
  OTG_DEV_EP_Init(EP2_OUT, OTG_DEV_EP_TYPE_BULK, BULK_MAX_PACKET_SIZE); 
  
#else 

  SetBTABLE(BTABLE_ADDRESS);

  /* Initialize Endpoint 0 */
  SetEPType(ENDP0, EP_CONTROL);
  SetEPTxStatus(ENDP0, EP_TX_NAK);
  SetEPRxAddr(ENDP0, ENDP0_RXADDR);
  SetEPRxCount(ENDP0, Device_Property.MaxPacketSize);
  SetEPTxAddr(ENDP0, ENDP0_TXADDR);
  Clear_Status_Out(ENDP0);
  SetEPRxValid(ENDP0);

  /* Initialize Endpoint 1 */
  SetEPType(ENDP1, EP_BULK);
  SetEPTxAddr(ENDP1, ENDP1_TXADDR);
  SetEPTxStatus(ENDP1, EP_TX_NAK);
  SetEPRxStatus(ENDP1, EP_RX_DIS);

  /* Initialize Endpoint 2 */
  SetEPType(ENDP2, EP_BULK);
  SetEPRxAddr(ENDP2, ENDP2_RXADDR);
  SetEPRxCount(ENDP2, Device_Property.MaxPacketSize);
  SetEPRxStatus(ENDP2, EP_RX_VALID);
  SetEPTxStatus(ENDP2, EP_TX_DIS);


  SetEPRxCount(ENDP0, Device_Property.MaxPacketSize);
  SetEPRxValid(ENDP0);

  /* Set the device to response on default address */
  SetDeviceAddress(0);
#endif /* STM32F10X_CL */

  bDeviceState = ATTACHED;

  CBW.dSignature = BOT_CBW_SIGNATURE;
  Bot_State = BOT_IDLE;

  //USB_NotConfigured_LED();
}
Esempio n. 4
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/*******************************************************************************
* Function Name  : DFU_Reset.
* Description    : DFU reset routine
* Input          : None.
* Output         : None.
* Return         : None.
*******************************************************************************/
void DFU_Reset(void)
{
  /* Set DFU_DEVICE as not configured */
  Device_Info.Current_Configuration = 0;

  /* Current Feature initialization */
  pInformation->Current_Feature = DFU_ConfigDescriptor[7];

#ifdef STM32F10X_CL
  /* EP0 is already configured in DFU_Init by OTG_DEV_Init() function
      No Other endpoints needed for this firmware */
#else
  _SetBTABLE(BTABLE_ADDRESS);

  /* Initialize Endpoint 0 */
  _SetEPType(ENDP0, EP_CONTROL);
  _SetEPTxStatus(ENDP0, EP_TX_NAK);
  _SetEPRxAddr(ENDP0, ENDP0_RXADDR);
  SetEPRxCount(ENDP0, Device_Property.MaxPacketSize);
  _SetEPTxAddr(ENDP0, ENDP0_TXADDR);
  SetEPTxCount(ENDP0, Device_Property.MaxPacketSize);
  Clear_Status_Out(ENDP0);
  SetEPRxValid(ENDP0);

  /* Set this device to response on default address */
  SetDeviceAddress(0);
#endif /* STM32F10X_CL */

  /* Set the new control state of the device to Attached */
  bDeviceState = ATTACHED;
}
Esempio n. 5
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void EP3_OUT_Callback(void)
{

	/* Get the received data buffer and update the counter */
	USB_Rx_Cnt = USB_SIL_Read(EP3_OUT, USB_Rx_Buffer);
	/* USB data will be immediately processed, this allow next USB traffic beeing
	NAKed till the end of the USART Xfet */


//#ifdef DEBUG_ENABLE_BY_USART2
	//TxDString("[USB]USB_Rx_Cnt = ");	TxDHex16(USB_Rx_Cnt);	TxDString("\r\n");
//#endif

	if(gbFlashDownloadStart == TRUE){
		ClearTimeOutBuffer();
		WriteFlash64(USB_Rx_Buffer, USB_Rx_Cnt);
	}

	gwpUSARTBuffer[gwUSARTWritePtr++&USART_BUFFER_SIZE] = USB_Rx_Buffer[0];
	//TxDString("gwUSARTWritePtr = ");	TxDHex32(gwpUSARTBuffer[gwUSARTWritePtr-1]);	TxDString("\r\n");

  
#ifndef STM32F10X_CL
	/* Enable the receive of data on EP3 */
	SetEPRxValid(ENDP3);
#endif /* STM32F10X_CL */
}
Esempio n. 6
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/*******************************************************************************
* Function Name  : Mass_Storage_Out
* Description    : Mass Storage OUT transfer.
* Input          : None.
* Output         : None.
* Return         : None.
*******************************************************************************/
void Mass_Storage_Out (void)
{
  uint8_t CMD;
  CMD = CBW.CB[0];

  Data_Len = USB_SIL_Read(EP5_OUT, Bulk_Data_Buff);

  switch (Bot_State)
  {
    case BOT_IDLE:
      CBW_Decode();
      break;
    case BOT_DATA_OUT:
      if (CMD == SCSI_WRITE10)
      {
        SCSI_Write10_Cmd(CBW.bLUN , SCSI_LBA , SCSI_BlkLen);
        break;
      }
      Bot_Abort(DIR_OUT);
      Set_Scsi_Sense_Data(CBW.bLUN, ILLEGAL_REQUEST, INVALID_FIELED_IN_COMMAND);
      Set_CSW (CSW_PHASE_ERROR, SEND_CSW_DISABLE);
      break;
    default:
      Bot_Abort(BOTH_DIR);
      Set_Scsi_Sense_Data(CBW.bLUN, ILLEGAL_REQUEST, INVALID_FIELED_IN_COMMAND);
      Set_CSW (CSW_PHASE_ERROR, SEND_CSW_DISABLE);
      break;
  }

  //az
#ifndef STM32F10X_CL
  /* Enable the receive of data on EP3 */
  SetEPRxValid(ENDP5);
#endif /* STM32F10X_CL */
}
Esempio n. 7
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/*******************************************************************************
* Function Name  : DFU_Reset
* Description    :
* Input          : None
* Output         : None
* Return         : None
*******************************************************************************/
void DFU_Reset(void)
{
	/* Set DFU_DEVICE as not configured */
	Device_Info.Current_Configuration = 0;

	_SetBTABLE(BTABLE_ADDRESS);

	/* Initialize Endpoint 0 */
	_SetEPType(ENDP0, EP_CONTROL);
	_SetEPTxStatus(ENDP0, EP_TX_NAK);
	_SetEPRxAddr(ENDP0, ENDP0_RXADDR);
	SetEPRxCount(ENDP0, Device_Property.MaxPacketSize);
	_SetEPTxAddr(ENDP0, ENDP0_TXADDR);
	SetEPTxCount(ENDP0, Device_Property.MaxPacketSize);
	Clear_Status_Out(ENDP0);
	SetEPRxValid(ENDP0);
	
	/* Set this device to response on default address */
	SetDeviceAddress(0);

       /* if(!DFU_Button_Read())
	{
		DeviceState=STATE_dfuIDLE;
		DeviceStatus[4]=DeviceState;
		DeviceStatus[1]=0;
        	DeviceStatus[2]=0;
        	DeviceStatus[3]=0;
	}*/

} /* DFU_Reset() */
Esempio n. 8
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/************************************************************************************//**
** \brief     USB device reset routine.
** \return    none.
**
****************************************************************************************/
void Bulk_Reset(void)
{
  /* set device as not configured */
  pInformation->Current_Configuration = 0;
  /* current feature initialization */
  pInformation->Current_Feature = Bulk_ConfigDescriptor[7];
  /* set device's the default Interface*/
  pInformation->Current_Interface = 0;
  /* set based address in USB RAM */
  SetBTABLE(BTABLE_ADDRESS);
  /* initialize endpoint 0 CONTROL (mandatory) */
  SetEPType(ENDP0, EP_CONTROL);
  SetEPTxStatus(ENDP0, EP_TX_STALL);
  SetEPRxAddr(ENDP0, ENDP0_RXADDR);
  SetEPTxAddr(ENDP0, ENDP0_TXADDR);
  Clear_Status_Out(ENDP0);
  SetEPRxCount(ENDP0, Device_Property.MaxPacketSize);
  SetEPRxValid(ENDP0);
  /* initialize endpoint 1 IN + OUT */
  SetEPType(ENDP1, EP_BULK);
  SetEPTxAddr(ENDP1, ENDP1_TXADDR);
  SetEPRxAddr(ENDP1, ENDP1_RXADDR);
  SetEPTxCount(ENDP1, BULK_DATA_SIZE);
  SetEPRxCount(ENDP1, BULK_DATA_SIZE);
  SetEPRxStatus(ENDP1, EP_RX_VALID);
  SetEPTxStatus(ENDP1, EP_TX_NAK);
  /* set this device to respond on default address */
  SetDeviceAddress(0);
  /* update device state */
  bDeviceState = ATTACHED;
} /*** end of Bulk_Reset ***/
Esempio n. 9
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//
//	PCから仮想COMポート側へデータを送信する.
//
void EP3_OUT_Callback(void)
{
	uint16_t USB_Rx_Cnt;

#if	LED_DEBUG
	led2_blink(0);
#endif


	/* Get the received data buffer and update the counter */
	USB_Rx_Cnt = USB_SIL_Read(EP3_OUT, USB_Rx_Buffer);

	/* USB data will be immediately processed, this allow next USB traffic beeing
	NAKed till the end of the USART Xfet */
	USBenqueue(USB_Rx_Buffer, USB_Rx_Cnt);
//	if(USB_Rx_Cnt) led2_blink(0);

#ifndef STM32F10X_CL
	if(	USBgetfreesize() >= 64 ) {
		/* Enable the receive of data on EP3 */
		SetEPRxValid(ENDP3);
		flag_EP3_OUT_PENDING=0;
	}else{
		// 受信バッファの空きがないときは一旦ペンディングする.
		flag_EP3_OUT_PENDING=1;
	}
#endif /* STM32F10X_CL */
}
Esempio n. 10
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/*******************************************************************************
* Function Name  : Virtual_Com_Port_Reset
* Description    : Virtual_Com_Port Mouse reset routine
* Input          : None.
* Output         : None.
* Return         : None.
*******************************************************************************/
void Virtual_Com_Port_Reset(void)
{
  /* Set Virtual_Com_Port DEVICE as not configured */
  pInformation->Current_Configuration = 0;

  /* Current Feature initialization */
  pInformation->Current_Feature = Virtual_Com_Port_ConfigDescriptor[7];

  /* Set Virtual_Com_Port DEVICE with the default Interface*/
  pInformation->Current_Interface = 0;

#ifdef STM32F10X_CL
  /* EP0 is already configured by USB_SIL_Init() function */

  /* Init EP1 IN as Bulk endpoint */
  OTG_DEV_EP_Init(EP1_IN, OTG_DEV_EP_TYPE_BULK, VIRTUAL_COM_PORT_DATA_SIZE);

  /* Init EP2 IN as Interrupt endpoint */
  OTG_DEV_EP_Init(EP2_IN, OTG_DEV_EP_TYPE_INT, VIRTUAL_COM_PORT_INT_SIZE);

  /* Init EP3 OUT as Bulk endpoint */
  OTG_DEV_EP_Init(EP3_OUT, OTG_DEV_EP_TYPE_BULK, VIRTUAL_COM_PORT_DATA_SIZE);
#else

  SetBTABLE(BTABLE_ADDRESS);

  /* Initialize Endpoint 0 */
  SetEPType(ENDP0, EP_CONTROL);
  SetEPTxStatus(ENDP0, EP_TX_STALL);
  SetEPRxAddr(ENDP0, ENDP0_RXADDR);
  SetEPTxAddr(ENDP0, ENDP0_TXADDR);
  Clear_Status_Out(ENDP0);
  SetEPRxCount(ENDP0, Device_Property.MaxPacketSize);
  SetEPRxValid(ENDP0);

  /* Initialize Endpoint 1 */
  SetEPType(ENDP1, EP_BULK);
  SetEPTxAddr(ENDP1, ENDP1_TXADDR);
  SetEPTxStatus(ENDP1, EP_TX_NAK);
  SetEPRxStatus(ENDP1, EP_RX_DIS);

  /* Initialize Endpoint 2 */
  SetEPType(ENDP2, EP_INTERRUPT);
  SetEPTxAddr(ENDP2, ENDP2_TXADDR);
  SetEPRxStatus(ENDP2, EP_RX_DIS);
  SetEPTxStatus(ENDP2, EP_TX_NAK);

  /* Initialize Endpoint 3 */
  SetEPType(ENDP3, EP_BULK);
  SetEPRxAddr(ENDP3, ENDP3_RXADDR);
  SetEPRxCount(ENDP3, VIRTUAL_COM_PORT_DATA_SIZE);
  SetEPRxStatus(ENDP3, EP_RX_VALID);
  SetEPTxStatus(ENDP3, EP_TX_DIS);

  /* Set this device to response on default address */
  SetDeviceAddress(0);
#endif /* STM32F10X_CL */

  bDeviceState = ATTACHED;
}
Esempio n. 11
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/*******************************************************************************
* Function Name  : Joystick_Reset.
* Description    : Joystick Mouse reset routine.
* Input          : None.
* Output         : None.
* Return         : None.
*******************************************************************************/
void Joystick_Reset(void)
{
  /* Set Joystick_DEVICE as not configured */
  pInformation->Current_Configuration = 0;
  pInformation->Current_Interface = 0;/*the default Interface*/

  /* Current Feature initialization */
  pInformation->Current_Feature = Joystick_ConfigDescriptor[7];

  SetBTABLE(BTABLE_ADDRESS);

  /* Initialize Endpoint 0 */
  SetEPType(ENDP0, EP_CONTROL);
  SetEPTxStatus(ENDP0, EP_TX_STALL);
  SetEPRxAddr(ENDP0, ENDP0_RXADDR);
  SetEPTxAddr(ENDP0, ENDP0_TXADDR);
  Clear_Status_Out(ENDP0);
  SetEPRxCount(ENDP0, Device_Property.MaxPacketSize);
  SetEPRxValid(ENDP0);

  /* Initialize Endpoint 1 */
  SetEPType(ENDP1, EP_INTERRUPT);
  SetEPTxAddr(ENDP1, ENDP1_TXADDR);
  SetEPTxCount(ENDP1, 4);
  SetEPRxStatus(ENDP1, EP_RX_DIS);
  SetEPTxStatus(ENDP1, EP_TX_NAK);

  bDeviceState = ATTACHED;

  /* Set this device to response on default address */
  SetDeviceAddress(0);
}
Esempio n. 12
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/*******************************************************************************
* Function Name  : EP1_OUT_Callback.
* Description    : EP1 OUT Callback Routine.
* Input          : None.
* Output         : None.
* Return         : None.
*******************************************************************************/
void EP1_OUT_Callback(void)
{
u8 DataLen; //保存接收数据的长度
u8 DataBuffer[64]; //保存接收数据的缓冲区

DataLen = GetEPRxCount(ENDP1); //获取收到的长度
PMAToUserBufferCopy(DataBuffer, ENDP1_RXADDR, DataLen); //复制数据
SetEPRxValid(ENDP1); //设置端点有效,以接收下一次数据

if(DataLen==1) //收到一字节的输出报告
{
  //D0位表示数字键盘灯,D1位表示大写字母锁定灯
//  if(DataBuffer[0]&0x01)  //数字键盘灯亮
//  {
//   GPIOC->BSRR=(1<<6); //亮LED3
//  }
//  else
//  {
//   GPIOC->BRR=(1<<6); //灭LED3
//  }
//  if(DataBuffer[0]&0x02) //大写字母锁定键
//  {
//   GPIOC->BSRR=(1<<7); //亮LED2
//  }
//  else
//  {
//   GPIOC->BRR=(1<<7); //灭LED2
//  }
}

}
Esempio n. 13
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/////////////////////////////////////////////////////////////////////////////
//! Gets a byte from the receive buffer
//! \param[in] usb_com USB_COM number (not supported yet, should always be 0)
//! \return -1 if USB_COM not available
//! \return -2 if no new byte available
//! \return >= 0: received byte
//! \note Applications shouldn't call this function directly, instead please use \ref MIOS32_COM layer functions
/////////////////////////////////////////////////////////////////////////////
s32 MIOS32_USB_COM_RxBufferGet(u8 usb_com)
{
#if MIOS32_USB_COM_NUM == 0
  return -1; // no USB_COM available
#else
  if( usb_com >= MIOS32_USB_COM_NUM )
    return -1; // USB_COM not available

  if( !rx_buffer_new_data_ctr )
    return -2; // nothing new in buffer

  // get byte - this operation should be atomic!
  // MIOS32_IRQ_Disable();

  // TODO: access buffer directly, so that we don't need to copy into temporary buffer
  u8 buffer_out[MIOS32_USB_COM_DATA_OUT_SIZE];
  PMAToUserBufferCopy(buffer_out, MIOS32_USB_ENDP3_RXADDR, GetEPRxCount(ENDP3));
  u8 b = buffer_out[rx_buffer_ix++];
  if( !--rx_buffer_new_data_ctr )
    SetEPRxValid(ENDP3);
  // MIOS32_IRQ_Enable();

  return b; // return received byte
#endif
}
Esempio n. 14
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/*******************************************************************************
* Function Name  : DFU_Reset.
* Description    : DFU reset routine
* Input          : None.
* Output         : None.
* Return         : None.
*******************************************************************************/
void DFU_Reset(void)
{
  /* Set DFU_DEVICE as not configured */
  Device_Info.Current_Configuration = 0;

  /* Current Feature initialization */
  pInformation->Current_Feature = DFU_ConfigDescriptor[7];

  _SetBTABLE(BTABLE_ADDRESS);

  /* Initialize Endpoint 0 */
  _SetEPType(ENDP0, EP_CONTROL);
  _SetEPTxStatus(ENDP0, EP_TX_NAK);
  _SetEPRxAddr(ENDP0, ENDP0_RXADDR);
  SetEPRxCount(ENDP0, Device_Property.MaxPacketSize);
  _SetEPTxAddr(ENDP0, ENDP0_TXADDR);
  SetEPTxCount(ENDP0, Device_Property.MaxPacketSize);
  Clear_Status_Out(ENDP0);
  SetEPRxValid(ENDP0);

  /* Set this device to response on default address */
  SetDeviceAddress(0);

  /* Set the new control state of the device to Attached */
  bDeviceState = ATTACHED;
}
Esempio n. 15
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/*******************************************************************************
* Function Name  : EP3_OUT_Callback
* Description    :
* Input          : None.
* Output         : None.
* Return         : None.
*******************************************************************************/
void EP3_OUT_Callback(void)
{
  uint32_t USB_RX_DataLength = 0, USB_RX_TotalLength, USB_RX_DataLength2 = 0;

  /* Get the received data buffer and update the counter */
  USB_RX_DataLength = USB_SIL_Read(EP3_OUT, USB_RX_Tail, BUFFER_CONTIGUOUS_FREE_SPACE(USB_RX), &USB_RX_TotalLength, 0);
  BUFFER_MOVE_TAIL(USB_RX, USB_RX_DataLength);
  
  if(USB_RX_TotalLength > USB_RX_DataLength)
  {
	  USB_RX_DataLength2 = USB_SIL_Read(EP3_OUT, USB_RX_Tail, BUFFER_CONTIGUOUS_FREE_SPACE(USB_RX), &USB_RX_TotalLength, USB_RX_DataLength);
	  BUFFER_MOVE_TAIL(USB_RX, USB_RX_DataLength2);
  }

  /* USB data will be immediately processed, this allow next USB traffic being 
  NAKed till the end of the USART Xfer */
  
  // send back to USB
  uint16_t RXLen = BUFFER_DATA_LENGTH(USB_RX);
  uint16_t TXLen = USB_RX_USB_TX_Copy(RXLen);

#ifndef STM32F10X_CL
  /* Enable the receive of data on EP3 */
#endif /* STM32F10X_CL */
  SetEPRxValid(ENDP3);
}
Esempio n. 16
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/*******************************************************************************
* Function Name  : EP3_OUT_Callback
* Description    :
* Input          : None.
* Output         : None.
* Return         : None.
*******************************************************************************/
void EP3_OUT_Callback(void)
{
  uint16_t USB_Rx_Cnt;
  char *BootCodeStr = "CM9X";
  uint16_t i;

  /* Get the received data buffer and update the counter */
  USB_Rx_Cnt = USB_SIL_Read(EP3_OUT, USB_Rx_Buffer);
  
  /* USB data will be immediately processed, this allow next USB traffic being 
  NAKed till the end of the USART Xfer */

  if( reset_state == DTR_NEGEDGE ) 
  {
    reset_state = DTR_LOW;

    if( USB_Rx_Cnt >= 4 )
    {
      for( i=0; i<4; i++ )
      {
        if( BootCodeStr[i] != USB_Rx_Buffer[i] ) break;
      }

      if( i == 4 )
      {
        Hw_IWDG_GoToBoot();
      }
    }
  }

  USB_To_USART_Send_Data(USB_Rx_Buffer, USB_Rx_Cnt);
 
  /* Enable the receive of data on EP3 */
  SetEPRxValid(ENDP3);
}
Esempio n. 17
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/*******************************************************************************
* Function Name  : Speaker_Reset.
* Description    : Speaker reset routine.
* Input          : None.
* Output         : None.
* Return         : None.
*******************************************************************************/
void Speaker_Reset()
{
  /* Set Speaker device as not configured state */
  pInformation->Current_Configuration = 0;

  /* Current Feature initialization */
  pInformation->Current_Feature = Speaker_ConfigDescriptor[7];

  SetBTABLE(BTABLE_ADDRESS);

  /* Initialize Endpoint 0 */
  SetEPType(ENDP0, EP_CONTROL);
  SetEPTxStatus(ENDP0, EP_TX_NAK);
  SetEPRxAddr(ENDP0, ENDP0_RXADDR);
  SetEPRxCount(ENDP0, Device_Property.MaxPacketSize);
  SetEPTxAddr(ENDP0, ENDP0_TXADDR);
  Clear_Status_Out(ENDP0);
  SetEPRxValid(ENDP0);

  /* Initialize Endpoint 1 */
  SetEPType(ENDP1, EP_ISOCHRONOUS);
  SetEPDoubleBuff(ENDP4);
  SetEPDblBuffAddr(ENDP1, ENDP1_BUF0Addr, ENDP1_BUF1Addr);
  SetEPDblBuffCount(ENDP1, EP_DBUF_IN, PACKET_SIZE);
  ClearDTOG_RX(ENDP1);
  ClearDTOG_TX(ENDP1);
  SetEPRxStatus(ENDP1, EP_RX_DIS);
  SetEPTxStatus(ENDP1, EP_TX_VALID);

  SetEPType(ENDP2, EP_INTERRUPT);
  SetEPTxAddr(ENDP2, ENDP2_TXADDR);
  SetEPTxCount(ENDP2, 0x40);
  SetEPRxStatus(ENDP2, EP_RX_DIS);
  SetEPTxStatus(ENDP2, EP_TX_NAK);
  
  SetEPType(ENDP3, EP_INTERRUPT);
  SetEPTxAddr(ENDP3, ENDP3_TXADDR);
  SetEPTxCount(ENDP3, 0x40);
  SetEPRxStatus(ENDP3, EP_RX_DIS);
  SetEPTxStatus(ENDP3, EP_TX_NAK);
  
  SetEPRxValid(ENDP0);
  /* Set this device to response on default address */
  SetDeviceAddress(0);

  bDeviceState = ATTACHED;
}
Esempio n. 18
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/*******************************************************************************
* Function Name  : EP3_OUT_Callback
* Description    :
* Input          : None.
* Output         : None.
* Return         : None.
*******************************************************************************/
void EP3_OUT_Callback(void)
{
  Receive_length = GetEPRxCount(ENDP3); // Len data buffers USB.
  PMAToUserBufferCopy((unsigned char*)Receive_Buffer, ENDP3_RXADDR, Receive_length);
  //memcpy(&Command_Buffer[len_command], (unsigned char*)Receive_Buffer, Receive_length);       //Copy buffers USB -> TEMP.
  memset((unsigned char*)Receive_Buffer, 0, Receive_length);                                    //Clear buffer USB.
  SetEPRxValid(ENDP3);
}
Esempio n. 19
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/*******************************************************************************
* Function Name  : EP3_IN_Callback
* Description    :
* Input          : None.
* Output         : None.
* Return         : None.
*******************************************************************************/
void EP3_OUT_Callback(void)
{
  /* Get the received data buffer and update the counter */
  count_out = USB_SIL_Read(EP3_OUT, buffer_out);
    
#ifndef STM32F10X_CL
  /* Enable the receive of data on EP3 */
  SetEPRxValid(ENDP3);
#endif /* STM32F10X_CL */
}
Esempio n. 20
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/* read a full block or less in EndPoint3 every callback */
void EP3_OUT_Callback(void)
{
    static uint8_t buffer[VIRTUAL_COM_PORT_DATA_SIZE];
    unsigned int bytes = USB_SIL_Read(EP3_OUT, (uint8_t*)buffer);
    PutDataInRing(&rx_ring, bytes, buffer);
#ifndef STM32F10X_CL
    /* Enable the receive of data on EP3 */
    SetEPRxValid(ENDP3);
#endif /* STM32F10X_CL */
}
void enable_synchronisation(){
  // don't lock the interrupts, because it might be called
  // out of a locked interrupt state
  
  //asm volatile ("cpsid i");
  if (endp3_locked == 1){
      SetEPRxValid(ENDP3);
  }
  synchro_enable = 1;
  //asm volatile ("cpsie i");
}
Esempio n. 22
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void usbReset(void) {
    pInformation->Current_Configuration = 0;

    /* current feature is current bmAttributes */
    pInformation->Current_Feature = (USB_CONFIG_ATTR_BUSPOWERED | USB_CONFIG_ATTR_SELF_POWERED);

    _SetBTABLE(USB_BTABLE_ADDRESS);

    /* setup control endpoint 0 */
    _SetEPType(ENDP0, EP_CONTROL);
    _SetEPTxStatus(ENDP0, EP_TX_STALL);
    _SetEPRxAddr(ENDP0,VCOM_CTRL_RX_ADDR);
    _SetEPTxAddr(ENDP0,VCOM_CTRL_TX_ADDR);
    Clear_Status_Out(ENDP0);

    SetEPRxCount(ENDP0, pProperty->MaxPacketSize);
    SetEPRxValid(ENDP0);

    /* setup management endpoint 1  */
    SetEPType     (VCOM_NOTIFICATION_ENDP,     EP_INTERRUPT);
    SetEPTxAddr   (VCOM_NOTIFICATION_ENDP,     VCOM_NOTIFICATION_ADDR);
    SetEPTxStatus (VCOM_NOTIFICATION_ENDP,     EP_TX_NAK);
    SetEPRxStatus (VCOM_NOTIFICATION_ENDP,     EP_RX_DIS);

    /* setup data endpoint OUT (rx) */
    /*   SetEPType     (VCOM_RX_ENDP, EP_BULK); */
    /*   SetEPRxAddr   (VCOM_RX_ENDP, VCOM_RX_ADDR); */
    /*   SetEPRxCount  (VCOM_RX_ENDP, VCOM_RX_EPSIZE); */
    /*   // SetEPTxStatus (VCOM_RX_ENDP, EP_TX_DIS); */
    /*   SetEPRxStatus (VCOM_RX_ENDP, EP_RX_VALID); */

    SetEPType     (3, EP_BULK);
    SetEPRxAddr   (3, 0x110);
    SetEPRxCount  (3,64);
    // SetEPTxStatus (VCOM_RX_ENDP, EP_TX_DIS);
    SetEPRxStatus (3, EP_RX_VALID);

    /* setup data endpoint IN (tx)  */
    SetEPType     (VCOM_TX_ENDP, EP_BULK);
    SetEPTxAddr   (VCOM_TX_ENDP, VCOM_TX_ADDR);
    SetEPTxStatus (VCOM_TX_ENDP, EP_TX_NAK);
    SetEPRxStatus (VCOM_TX_ENDP, EP_RX_DIS);

    bDeviceState = ATTACHED;
    SetDeviceAddress(0);

    /* reset the rx fifo */
    recvBufIn   = 0;
    recvBufOut  = 0;
    maxNewBytes = VCOM_RX_EPSIZE;
    countTx     = 0;
}
Esempio n. 23
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/*******************************************************************************
* Function Name  : Microphone_Reset.
* Description    : Microphone reset routine.
* Input          : None.
* Output         : None.
* Return         : None.
*******************************************************************************/
void Microphone_Reset()
{
  /* Set Microphone device as not configured state */
  pInformation->Current_Configuration = 0;

  /* Current Feature initialization */
  pInformation->Current_Feature = Microphone_ConfigDescriptor[7];

  SetBTABLE(BTABLE_ADDRESS);

  /* Initialize Endpoint 0 */
  SetEPType(ENDP0, EP_CONTROL);
  SetEPTxStatus(ENDP0, EP_TX_NAK);
  SetEPRxAddr(ENDP0, ENDP0_RXADDR);
  SetEPRxCount(ENDP0, Device_Property.MaxPacketSize);
  SetEPTxAddr(ENDP0, ENDP0_TXADDR);
  Clear_Status_Out(ENDP0);
  SetEPRxValid(ENDP0);

  /* Initialize Endpoint 1 */
  SetEPType(ENDP1, EP_ISOCHRONOUS);
  SetEPDblBuffAddr(ENDP1, ENDP1_BUF0Addr, ENDP1_BUF1Addr);
  //SetEPDblBuffCount(ENDP1, EP_DBUF_IN, 0x40);
  SetEPDblBuffCount(ENDP1, EP_DBUF_IN, 0x60);
  ClearDTOG_RX(ENDP1);
  ClearDTOG_TX(ENDP1);
  ToggleDTOG_TX(ENDP1);
  SetEPRxStatus(ENDP1, EP_RX_DIS);
  SetEPTxStatus(ENDP1, EP_TX_VALID);

  SetEPRxValid(ENDP0);
  /* Set this device to response on default address */
  SetDeviceAddress(0);

  bDeviceState = ATTACHED;

  //In_Data_Offset = 0;
  //Out_Data_Offset = 0;
}
Esempio n. 24
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/*******************************************************************************
 * Function Name  : EP3_OUT_Callback
 * Description    :
 * Input          : None.
 * Output         : None.
 * Return         : None.
 *******************************************************************************/
void EP3_OUT_Callback(void)
{
	if(USB_Rx_Cnt%VIRTUAL_COM_PORT_DATA_SIZE==0)
	{
		USB_Rx_Cnt += USB_SIL_Read(EP3_OUT, &USB_Rx_Buffer[USB_Rx_Cnt]);
	}
	// Get the received data buffer and update the counter

#ifndef STM32F10X_CL
	// Enable the receive of data on EP3
	SetEPRxValid(ENDP3);
#endif // STM32F10X_CL
}
Esempio n. 25
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/*******************************************************************************
* Function Name  : EP3_OUT_Callback
* Description    :
* Input          : None.
* Output         : None.
* Return         : None.
*******************************************************************************/
void EP3_OUT_Callback(void)
{
	uint16_t USB_Rx_Cnt;

	/* Get the received data buffer and update the counter */
	USB_Rx_Cnt = USB_SIL_Read(EP3_OUT, USB_Rx_Buffer);

	/* USB data will be immediately processed, this allow next USB traffic being 
	NAKed till the end of the USART Xfer */
	USB_To_USART_Send_Data(USB_Rx_Buffer, USB_Rx_Cnt);
	/* Enable the receive of data on EP3 */
	SetEPRxValid(ENDP3);
}
Esempio n. 26
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/*******************************************************************************
* Function Name  : EP3_OUT_Callback
* Description    :
* Input          : None.
* Output         : None.
* Return         : None.
*******************************************************************************/
void EP3_OUT_Callback(void)
{  
	uint16_t i;

  	/* Get the received data buffer and update the counter */
  	USB_Rx_Length = USB_SIL_Read(EP3_OUT, USB_Rx_Buffer);
				    
	// Echo characters
	USB_SendMsg((const char*)USB_Rx_Buffer, USB_Rx_Length);
  
	// Send data to command processor here
	//CMD_ProcessRxBuffer(USB_Rx_Buffer, USB_Rx_Length);

	for (i = 0; i < USB_Rx_Length; i++)
	{
		switch (USB_Rx_Buffer[i])
		{	
			case 127 :		  // Backspace ('DEL') from Putty
			case '\b' :
				// Handle back space (TODO)
				if (CMD_Rx_Length > 0)
				{
					CMD_Rx_Length--;
				}
				break;

					  				
			case '\r' :
				// // Ignore carriage returns
				// break;
			case '\n' :
				// For now assume:
				// - '\n' is the last character in USB_Rx_Buffer (remainder is ignored)
				// - no new characters are received until the command is processed
												 
				CMD_Rx_Buffer[CMD_Rx_Length++] = '\0';

				// Signal to command processor (set flag)
				CMD_Rx_Valid = 1;

				break;
			default:
				// Copy character to 'command processor buffer'	
				CMD_Rx_Buffer[CMD_Rx_Length++] = USB_Rx_Buffer[i];
				break;
		}
	}

	// Enable the receive of data on EP3
	SetEPRxValid(ENDP3);
}
Esempio n. 27
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/*******************************************************************************
* Function Name  : MASS_Reset
* Description    : Mass Storage reset routine.
* Input          : None.
* Output         : None.
* Return         : None.
*******************************************************************************/
void MASS_Reset()
{
  /* Set the device as not configured */
  Device_Info.Current_Configuration = 0;

  SetBTABLE(BTABLE_ADDRESS);

  /* Initialize Endpoint 0 */
  SetEPType(ENDP0, EP_CONTROL);
  SetEPTxStatus(ENDP0, EP_TX_NAK);
  SetEPRxAddr(ENDP0, ENDP0_RXADDR);
  SetEPRxCount(ENDP0, Device_Property.MaxPacketSize);
  SetEPTxAddr(ENDP0, ENDP0_TXADDR);
  Clear_Status_Out(ENDP0);
  SetEPRxValid(ENDP0);

  /* Initialize Endpoint 1 */
  SetEPType(ENDP1, EP_BULK);
  SetEPTxAddr(ENDP1, ENDP1_TXADDR);
  SetEPTxStatus(ENDP1, EP_TX_NAK);
  SetEPRxStatus(ENDP1, EP_RX_DIS);

  /* Initialize Endpoint 2 */
  SetEPType(ENDP2, EP_BULK);
  SetEPRxAddr(ENDP2, ENDP2_RXADDR);
  SetEPRxCount(ENDP2, Device_Property.MaxPacketSize);
  SetEPRxStatus(ENDP2, EP_RX_VALID);
  SetEPTxStatus(ENDP2, EP_TX_DIS);


  SetEPRxCount(ENDP0, Device_Property.MaxPacketSize);
  SetEPRxValid(ENDP0);

  /* Set the device to response on default address */
  SetDeviceAddress(0);
  CBW.dSignature = BOT_CBW_SIGNATURE;
  Bot_State = BOT_IDLE;
}
Esempio n. 28
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/*******************************************************************************
    Function Name  : Speaker_Reset.
    Description    : Speaker reset routine.
    Input          : None.
    Output         : None.
    Return         : None.
*******************************************************************************/
void Speaker_Reset() {
	// Set Speaker device as not configured state
	pInformation->Current_Configuration = 0;

	// Current Feature initialization
	pInformation->Current_Feature = Speaker_ConfigDescriptor[7];

//	*BTABLE = BTABLE_ADDRESS & 0xFFF8;
	*BTABLE = BTABLE_ADDRESS; // BTABLE_ADDRESS = 0

	// Initialize Endpoint 0
	SetEPType(ENDP0,EP_CONTROL);
	SetEPTxStatus(ENDP0,EP_TX_NAK);
	SetEPRxAddr(ENDP0,ENDP0_RXADDR);
	SetEPRxCount(ENDP0,Device_Property.MaxPacketSize);
	SetEPTxAddr(ENDP0,ENDP0_TXADDR);
	Clear_Status_Out(ENDP0);
	SetEPRxValid(ENDP0);

	// Initialize Endpoint 1
	SetEPType(ENDP1,EP_ISOCHRONOUS);
	SetEPDblBuffAddr(ENDP1,ENDP1_BUF0Addr,ENDP1_BUF1Addr);
	SetEPDblBuffCount(ENDP1,EP_DBUF_OUT,0x40);
	ClearDTOG_RX(ENDP1);
	ClearDTOG_TX(ENDP1);
	ToggleDTOG_TX(ENDP1);
	SetEPRxStatus(ENDP1,EP_RX_VALID);
	SetEPTxStatus(ENDP1,EP_TX_DIS);
	SetEPRxValid(ENDP0);

	// Set this device to response on default address
	SetDeviceAddress(0);

	bDeviceState = ATTACHED;

	In_Data_Offset  = 0;
	Out_Data_Offset = 0;
}
Esempio n. 29
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void EP3_OUT_Callback(void) {
    uint8_t rxBuffer[VIRTUAL_COM_PORT_DATA_SIZE];
    uint16_t rxCount;

    /* Get the received data buffer and update the counter */
    rxCount = USB_SIL_Read(EP3_OUT, rxBuffer);

    /* USB data will be immediately processed, this allow next USB traffic being
    NAKed till the end of the USART Xfer */

    usb_on_rx(rxBuffer, rxCount);

    /* Enable the receive of data on EP3 */
    SetEPRxValid(ENDP3);
}
/*******************************************************************************
* Function Name  : CustomHID_Reset.
* Description    : Custom HID reset routine.
* Input          : None.
* Output         : None.
* Return         : None.
*******************************************************************************/
static void composite_cdc_hid_Reset(void)
{
  /* Set CustomHID_DEVICE as not configured */
  pInformation->Current_Configuration = 0;
  pInformation->Current_Interface = 0;/*the default Interface*/
  
  /* Current Feature initialization */
  pInformation->Current_Feature = Composite_ConfigDescriptor[7];
 
  SetBTABLE(BTABLE_ADDRESS);

  /* Initialize Endpoint 0 */
  SetEPType(ENDP0, EP_CONTROL);
  SetEPTxStatus(ENDP0, EP_TX_STALL);
  SetEPRxAddr(ENDP0, ENDP0_RXADDR);
  SetEPTxAddr(ENDP0, ENDP0_TXADDR);
  Clear_Status_Out(ENDP0);
  SetEPRxCount(ENDP0, Device_Property.MaxPacketSize);
  SetEPRxValid(ENDP0);
  
  /* Initialize Endpoint 1 */
  SetEPType(ENDP1, EP_BULK);
  SetEPTxAddr(ENDP1, ENDP1_TXADDR);
  SetEPRxAddr(ENDP1, ENDP1_RXADDR);
  SetEPTxCount(ENDP1, 0x40);
  SetEPRxCount(ENDP1, 0x40);
  SetEPRxStatus(ENDP1, EP_RX_VALID);
  SetEPTxStatus(ENDP1, EP_TX_NAK);
	
 /* Initialize Endpoint 2 */
  SetEPType(ENDP2, EP_INTERRUPT);
  SetEPTxAddr(ENDP2, ENDP2_TXADDR);
  SetEPRxStatus(ENDP2, EP_RX_DIS);
  SetEPTxStatus(ENDP2, EP_TX_NAK);

/* Initialize Endpoint 3 */
  SetEPType(ENDP3, EP_INTERRUPT);
  SetEPTxAddr(ENDP3, ENDP3_TXADDR);
  SetEPRxAddr(ENDP3, ENDP3_RXADDR);
  SetEPTxCount(ENDP3, 16);
  SetEPRxCount(ENDP3, 16);
  SetEPRxStatus(ENDP3, EP_RX_VALID);
  SetEPTxStatus(ENDP3, EP_TX_NAK);

/* Set this device to response on default address */
  SetDeviceAddress(0);
  bDeviceState = ATTACHED;
}