Ejemplo n.º 1
0
__inline uint32_t USB_ReqSetInterface (void) {
  USB_COMMON_DESCRIPTOR *pD;
  uint32_t ifn = 0, alt = 0, old = 0, msk = 0;
  uint32_t n, m;
  uint32_t set;

  switch (SetupPacket.bmRequestType.BM.Recipient) {
    case REQUEST_TO_INTERFACE:
      if (USB_Configuration == 0) return (FALSE);
      set = FALSE;
      pD  = (USB_COMMON_DESCRIPTOR *)USB_ConfigDescriptor;
      while (pD->bLength) {
        switch (pD->bDescriptorType) {
          case USB_CONFIGURATION_DESCRIPTOR_TYPE:
            if (((USB_CONFIGURATION_DESCRIPTOR *)pD)->bConfigurationValue != USB_Configuration) {
              (uint8_t *)pD += ((USB_CONFIGURATION_DESCRIPTOR *)pD)->wTotalLength;
              continue;
            }
            break;
          case USB_INTERFACE_DESCRIPTOR_TYPE:
            ifn = ((USB_INTERFACE_DESCRIPTOR *)pD)->bInterfaceNumber;
            alt = ((USB_INTERFACE_DESCRIPTOR *)pD)->bAlternateSetting;
            msk = 0;
            if ((ifn == SetupPacket.wIndex.WB.L) && (alt == SetupPacket.wValue.WB.L)) {
              set = TRUE;
              old = USB_AltSetting[ifn];
              USB_AltSetting[ifn] = (uint8_t)alt;
            }
            break;
          case USB_ENDPOINT_DESCRIPTOR_TYPE:
            if (ifn == SetupPacket.wIndex.WB.L) {
              n = ((USB_ENDPOINT_DESCRIPTOR *)pD)->bEndpointAddress & 0x8F;
              m = (n & 0x80) ? ((1 << 16) << (n & 0x0F)) : (1 << n);
              if (alt == SetupPacket.wValue.WB.L) {
                USB_EndPointMask |=  m;
                USB_EndPointHalt &= ~m;
                USB_ConfigEP((USB_ENDPOINT_DESCRIPTOR *)pD);
                USB_EnableEP(n);
                USB_ResetEP(n);
                msk |= m;
              }
              else if ((alt == old) && ((msk & m) == 0)) {
                USB_EndPointMask &= ~m;
                USB_EndPointHalt &= ~m;
                USB_DisableEP(n);
              }
            }
           break;
        }
        (uint8_t *)pD += pD->bLength;
      }
      break;
    default:
      return (FALSE);
  }

  return (set);
}
Ejemplo n.º 2
0
__inline uint32_t USB_ReqSetConfiguration (void) {
  USB_COMMON_DESCRIPTOR *pD;
  uint32_t alt = 0;
  uint32_t n, m;

  switch (SetupPacket.bmRequestType.BM.Recipient) {
    case REQUEST_TO_DEVICE:

      if (SetupPacket.wValue.WB.L) {
        pD = (USB_COMMON_DESCRIPTOR *)USB_ConfigDescriptor;
        while (pD->bLength) {
          switch (pD->bDescriptorType) {
            case USB_CONFIGURATION_DESCRIPTOR_TYPE:
              if (((USB_CONFIGURATION_DESCRIPTOR *)pD)->bConfigurationValue == SetupPacket.wValue.WB.L) {
                USB_Configuration = SetupPacket.wValue.WB.L;
                USB_NumInterfaces = ((USB_CONFIGURATION_DESCRIPTOR *)pD)->bNumInterfaces;
                for (n = 0; n < USB_IF_NUM; n++) {
                  USB_AltSetting[n] = 0;
                }
                for (n = 1; n < USB_LOGIC_EP_NUM; n++) {
                  if (USB_EndPointMask & (1 << n)) {
                    USB_DisableEP(n);
                  }
                  if (USB_EndPointMask & ((1 << 16) << n)) {
                    USB_DisableEP(n | 0x80);
                  }
                }
                USB_EndPointMask = 0x00010001;
                USB_EndPointHalt = 0x00000000;
                USB_EndPointStall= 0x00000000;
                USB_Configure(TRUE);
                if (((USB_CONFIGURATION_DESCRIPTOR *)pD)->bmAttributes & USB_CONFIG_POWERED_MASK) {
                  USB_DeviceStatus |=  USB_GETSTATUS_SELF_POWERED;
                } else {
                  USB_DeviceStatus &= ~USB_GETSTATUS_SELF_POWERED;
                }
              } else {
                (uint8_t *)pD += ((USB_CONFIGURATION_DESCRIPTOR *)pD)->wTotalLength;
                continue;
              }
              break;
            case USB_INTERFACE_DESCRIPTOR_TYPE:
              alt = ((USB_INTERFACE_DESCRIPTOR *)pD)->bAlternateSetting;
              break;
            case USB_ENDPOINT_DESCRIPTOR_TYPE:
              if (alt == 0) {
                n = ((USB_ENDPOINT_DESCRIPTOR *)pD)->bEndpointAddress & 0x8F;
                m = (n & 0x80) ? ((1 << 16) << (n & 0x0F)) : (1 << n);
                USB_EndPointMask |= m;
                USB_ConfigEP((USB_ENDPOINT_DESCRIPTOR *)pD);
                USB_EnableEP(n);
                USB_ResetEP(n);
              }
              break;
          }
          (uint8_t *)pD += pD->bLength;
        }
      }
      else {
        USB_Configuration = 0;
        for (n = 1; n < USB_LOGIC_EP_NUM; n++) {
          if (USB_EndPointMask & (1 << n)) {
            USB_DisableEP(n);
          }
          if (USB_EndPointMask & ((1 << 16) << n)) {
            USB_DisableEP(n | 0x80);
          }
        }
        USB_EndPointMask  = 0x00010001;
        USB_EndPointHalt  = 0x00000000;
        USB_EndPointStall = 0x00000000;
        USB_Configure(FALSE);
      }

      if (USB_Configuration != SetupPacket.wValue.WB.L) {
        return (FALSE);
      }
      break;
    default:
      return (FALSE);
  }
  return (TRUE);
}
Ejemplo n.º 3
0
inline uint32_t USB_ReqGetConfiguration (void) {
#else
__inline uint32_t USB_ReqGetConfiguration (void) {
#endif

  switch (SetupPacket.bmRequestType.BM.Recipient) {
    case REQUEST_TO_DEVICE:
      EP0Data.pData = &USB_Configuration;
      break;
    default:
      return (FALSE);
  }
  return (TRUE);
}


/*
 *  Set Configuration USB Request
 *    Parameters:      None (global SetupPacket)
 *    Return Value:    TRUE - Success, FALSE - Error
 */
#ifdef __IAR_SYSTEMS_ICC__
inline uint32_t USB_ReqSetConfiguration (void) {
#else
__inline uint32_t USB_ReqSetConfiguration (void) {
#endif
  USB_COMMON_DESCRIPTOR *pD;
  uint32_t alt = 0;
  uint32_t n, m;
  uint32_t tmp;

  switch (SetupPacket.bmRequestType.BM.Recipient) {
    case REQUEST_TO_DEVICE:

      if (SetupPacket.wValue.WB.L) {
        pD = (USB_COMMON_DESCRIPTOR *)USB_ConfigDescriptor;
        while (pD->bLength) {
          switch (pD->bDescriptorType) {
            case USB_CONFIGURATION_DESCRIPTOR_TYPE:
              if (((USB_CONFIGURATION_DESCRIPTOR *)pD)->bConfigurationValue == SetupPacket.wValue.WB.L) {
                USB_Configuration = SetupPacket.wValue.WB.L;
                USB_NumInterfaces = ((USB_CONFIGURATION_DESCRIPTOR *)pD)->bNumInterfaces;
                for (n = 0; n < USB_IF_NUM; n++) {
                  USB_AltSetting[n] = 0;
                }
                for (n = 1; n < 16; n++) {
                  if (USB_EndPointMask & (1 << n)) {
                    USB_DisableEP(n);
                  }
                  if (USB_EndPointMask & ((1 << 16) << n)) {
                    USB_DisableEP(n | 0x80);
                  }
                }
                USB_EndPointMask = 0x00010001;
                USB_EndPointHalt = 0x00000000;
                USB_EndPointStall= 0x00000000;
                USB_Configure(TRUE);
                if (((USB_CONFIGURATION_DESCRIPTOR *)pD)->bmAttributes & USB_CONFIG_POWERED_MASK) {
                  USB_DeviceStatus |=  USB_GETSTATUS_SELF_POWERED;
                } else {
                  USB_DeviceStatus &= ~USB_GETSTATUS_SELF_POWERED;
                }
              } else {
                //(uint8_t *)pD += ((USB_CONFIGURATION_DESCRIPTOR *)pD)->wTotalLength;
                tmp = (uint32_t) pD;
                tmp += ((USB_CONFIGURATION_DESCRIPTOR *)pD)->wTotalLength;
                pD = (USB_COMMON_DESCRIPTOR *)tmp;
                continue;
              }
              break;
            case USB_INTERFACE_DESCRIPTOR_TYPE:
              alt = ((USB_INTERFACE_DESCRIPTOR *)pD)->bAlternateSetting;
              break;
            case USB_ENDPOINT_DESCRIPTOR_TYPE:
              if (alt == 0) {
                n = ((USB_ENDPOINT_DESCRIPTOR *)pD)->bEndpointAddress & 0x8F;
                m = (n & 0x80) ? ((1 << 16) << (n & 0x0F)) : (1 << n);
                USB_EndPointMask |= m;
                USB_ConfigEP((USB_ENDPOINT_DESCRIPTOR *)pD);
                USB_EnableEP(n);
                USB_ResetEP(n);
              }
              break;
          }
          //(uint8_t *)pD += pD->bLength;
          tmp = (uint32_t) pD;
          tmp += pD->bLength;
          pD = (USB_COMMON_DESCRIPTOR *)tmp;
        }
      }
      else {
        USB_Configuration = 0;
        for (n = 1; n < 16; n++) {
          if (USB_EndPointMask & (1 << n)) {
            USB_DisableEP(n);
          }
          if (USB_EndPointMask & ((1 << 16) << n)) {
            USB_DisableEP(n | 0x80);
          }
        }
        USB_EndPointMask  = 0x00010001;
        USB_EndPointHalt  = 0x00000000;
        USB_EndPointStall = 0x00000000;
        USB_Configure(FALSE);
      }

      if (USB_Configuration != SetupPacket.wValue.WB.L) {
        return (FALSE);
      }
      break;
    default:
      return (FALSE);
  }
  return (TRUE);
}
Ejemplo n.º 4
0
inline uint32_t USB_ReqGetInterface (void) {
#else
__inline uint32_t USB_ReqGetInterface (void) {
#endif

  switch (SetupPacket.bmRequestType.BM.Recipient) {
    case REQUEST_TO_INTERFACE:
      if ((USB_Configuration != 0) && (SetupPacket.wIndex.WB.L < USB_NumInterfaces)) {
        EP0Data.pData = USB_AltSetting + SetupPacket.wIndex.WB.L;
      } else {
        return (FALSE);
      }
      break;
    default:
      return (FALSE);
  }
  return (TRUE);
}


/*
 *  Set Interface USB Request
 *    Parameters:      None (global SetupPacket)
 *    Return Value:    TRUE - Success, FALSE - Error
 */
#ifdef __IAR_SYSTEMS_ICC__
inline uint32_t USB_ReqSetInterface (void) {
#else
__inline uint32_t USB_ReqSetInterface (void) {
#endif
  USB_COMMON_DESCRIPTOR *pD;
  uint32_t ifn = 0, alt = 0, old = 0, msk = 0;
  uint32_t n, m;
  uint32_t set, tmp;

  switch (SetupPacket.bmRequestType.BM.Recipient) {
    case REQUEST_TO_INTERFACE:
      if (USB_Configuration == 0) return (FALSE);
      set = FALSE;
      pD  = (USB_COMMON_DESCRIPTOR *)USB_ConfigDescriptor;
      while (pD->bLength) {
        switch (pD->bDescriptorType) {
          case USB_CONFIGURATION_DESCRIPTOR_TYPE:
            if (((USB_CONFIGURATION_DESCRIPTOR *)pD)->bConfigurationValue != USB_Configuration) {
              //(uint8_t *)pD += ((USB_CONFIGURATION_DESCRIPTOR *)pD)->wTotalLength;
              tmp = (uint32_t)pD;
              tmp += ((USB_CONFIGURATION_DESCRIPTOR *)pD)->wTotalLength;
              pD = (USB_COMMON_DESCRIPTOR *)tmp;
              continue;
            }
            break;
          case USB_INTERFACE_DESCRIPTOR_TYPE:
            ifn = ((USB_INTERFACE_DESCRIPTOR *)pD)->bInterfaceNumber;
            alt = ((USB_INTERFACE_DESCRIPTOR *)pD)->bAlternateSetting;
            msk = 0;
            if ((ifn == SetupPacket.wIndex.WB.L) && (alt == SetupPacket.wValue.WB.L)) {
              set = TRUE;
              old = USB_AltSetting[ifn];
              USB_AltSetting[ifn] = (uint8_t)alt;
            }
            break;
          case USB_ENDPOINT_DESCRIPTOR_TYPE:
            if (ifn == SetupPacket.wIndex.WB.L) {
              n = ((USB_ENDPOINT_DESCRIPTOR *)pD)->bEndpointAddress & 0x8F;
              m = (n & 0x80) ? ((1 << 16) << (n & 0x0F)) : (1 << n);
              if (alt == SetupPacket.wValue.WB.L) {
                USB_EndPointMask |=  m;
                USB_EndPointHalt &= ~m;
                USB_ConfigEP((USB_ENDPOINT_DESCRIPTOR *)pD);
                USB_EnableEP(n);
                USB_ResetEP(n);
                msk |= m;
              }
              else if ((alt == old) && ((msk & m) == 0)) {
                USB_EndPointMask &= ~m;
                USB_EndPointHalt &= ~m;
                USB_DisableEP(n);
              }
            }
           break;
        }
        //(uint8_t *)pD += pD->bLength;
        tmp = (uint32_t)pD;
        tmp += pD->bLength;
        pD = (USB_COMMON_DESCRIPTOR *) tmp;
      }
      break;
    default:
      return (FALSE);
  }

  return (set);
}
Ejemplo n.º 5
0
inline uint32_t USB_SetConfiguration (void) {
#else
__inline uint32_t USB_SetConfiguration (void) {
#endif
	USB_COMMON_DESCRIPTOR *pD;
	uint32_t  alt, n;
	uint32_t tmp;

	if (SetupPacket.wValue.WB.L)
	{
		pD = (USB_COMMON_DESCRIPTOR *)USB_ConfigDescriptor;
		while (pD->bLength)
		{
			switch (pD->bDescriptorType)
			{
				case USB_CONFIGURATION_DESCRIPTOR_TYPE:
					if (((USB_CONFIGURATION_DESCRIPTOR *)pD)->bConfigurationValue == SetupPacket.wValue.WB.L)
					{
						USB_Configuration = SetupPacket.wValue.WB.L;
						USB_Configure(TRUE);
					/*	if (((USB_CONFIGURATION_DESCRIPTOR *)pD)->bmAttributes & USB_CONFIG_SELF_POWERED)
						{
							USB_DeviceStatus |=  USB_GETSTATUS_SELF_POWERED;
						}
						else
						{
							USB_DeviceStatus &= ~USB_GETSTATUS_SELF_POWERED;
						}	 */
					}
					else
					{
//						(uint8_t *)pD += ((USB_CONFIGURATION_DESCRIPTOR *)pD)->wTotalLength;
						tmp = (uint32_t)pD;
						tmp += ((USB_CONFIGURATION_DESCRIPTOR *)pD)->wTotalLength;
						pD = (USB_COMMON_DESCRIPTOR *)tmp;
						continue;
					}
					break;
				case USB_INTERFACE_DESCRIPTOR_TYPE:
					alt = ((USB_INTERFACE_DESCRIPTOR *)pD)->bAlternateSetting;
					break;
				case USB_ENDPOINT_DESCRIPTOR_TYPE:
					if (alt == 0)
					{
						n = ((USB_ENDPOINT_DESCRIPTOR *)pD)->bEndpointAddress & 0x8F;
						USB_ConfigEP((USB_ENDPOINT_DESCRIPTOR *)pD);
						USB_EnableEP(n);
						USB_ResetEP(n);
					}
					break;
			}
//			(uint8_t *)pD += pD->bLength;
			tmp = (uint32_t)pD;
			tmp += pD->bLength;
			pD = (USB_COMMON_DESCRIPTOR *)tmp;
		}
	}
	else
	{
		USB_Configuration = 0;
		USB_Configure(FALSE);
	}

	if (USB_Configuration == SetupPacket.wValue.WB.L)
	{
		return (TRUE);
	}
	else
	{
		return (FALSE);
	}
}