/* The Device callback */
static usb_status_t USB_DeviceCallback(usb_device_handle handle, uint32_t event, void *param)
{
usb_status_t error = kStatus_USB_Error;
uint16_t *temp16 = (uint16_t *)param;
uint8_t *temp8 = (uint8_t *)param;
switch (event)
{
case kUSB_DeviceEventBusReset:
{
/* USB bus reset signal detected */
g_UsbDeviceComposite.attach = 0U;
error = kStatus_USB_Success;
#if defined(USB_DEVICE_CONFIG_EHCI) && (USB_DEVICE_CONFIG_EHCI > 0U)
/* Get USB speed to configure the device, including max packet size and interval of the endpoints. */
if (kStatus_USB_Success == USB_DeviceClassGetSpeed(CONTROLLER_ID, &g_UsbDeviceComposite.speed))
{
USB_DeviceSetSpeed(handle, g_UsbDeviceComposite.speed);
}
#endif
}
break;
case kUSB_DeviceEventSetConfiguration:
if (param)
{
/* Set device configuration request */
g_UsbDeviceComposite.attach = 1U;
g_UsbDeviceComposite.currentConfiguration = *temp8;
USB_DeviceHidMouseSetConfigure(g_UsbDeviceComposite.hidMouseHandle, *temp8);
USB_DeviceHidKeyboardSetConfigure(g_UsbDeviceComposite.hidKeyboardHandle, *temp8);
error = kStatus_USB_Success;
}
break;
case kUSB_DeviceEventSetInterface:
if (g_UsbDeviceComposite.attach)
{
/* Set device interface request */
uint8_t interface = (uint8_t)((*temp16 & 0xFF00U) >> 0x08U);
uint8_t alternateSetting = (uint8_t)(*temp16 & 0x00FFU);
if (interface < USB_COMPOSITE_INTERFACE_COUNT)
{
g_UsbDeviceComposite.currentInterfaceAlternateSetting[interface] = alternateSetting;
USB_DeviceHidMouseSetInterface(g_UsbDeviceComposite.hidMouseHandle, interface, alternateSetting);
USB_DeviceHidKeyboardSetInterface(g_UsbDeviceComposite.hidKeyboardHandle, interface,
alternateSetting);
error = kStatus_USB_Success;
}
}
break;
case kUSB_DeviceEventGetConfiguration:
if (param)
{
/* Get current configuration request */
*temp8 = g_UsbDeviceComposite.currentConfiguration;
error = kStatus_USB_Success;
}
break;
case kUSB_DeviceEventGetInterface:
if (param)
{
/* Get current alternate setting of the interface request */
uint8_t interface = (uint8_t)((*temp16 & 0xFF00U) >> 0x08U);
if (interface < USB_COMPOSITE_INTERFACE_COUNT)
{
*temp16 = (*temp16 & 0xFF00U) | g_UsbDeviceComposite.currentInterfaceAlternateSetting[interface];
error = kStatus_USB_Success;
}
else
{
error = kStatus_USB_InvalidRequest;
}
}
break;
case kUSB_DeviceEventGetDeviceDescriptor:
if (param)
{
/* Get device descriptor request */
error = USB_DeviceGetDeviceDescriptor(handle, (usb_device_get_device_descriptor_struct_t *)param);
}
break;
case kUSB_DeviceEventGetConfigurationDescriptor:
if (param)
{
/* Get device configuration descriptor request */
error = USB_DeviceGetConfigurationDescriptor(handle,
(usb_device_get_configuration_descriptor_struct_t *)param);
}
break;
case kUSB_DeviceEventGetStringDescriptor:
if (param)
{
/* Get device string descriptor request */
error = USB_DeviceGetStringDescriptor(handle, (usb_device_get_string_descriptor_struct_t *)param);
}
break;
case kUSB_DeviceEventGetHidDescriptor:
if (param)
{
/* Get hid descriptor request */
error = USB_DeviceGetHidDescriptor(handle, (usb_device_get_hid_descriptor_struct_t *)param);
}
break;
case kUSB_DeviceEventGetHidReportDescriptor:
if (param)
{
/* Get hid report descriptor request */
error =
USB_DeviceGetHidReportDescriptor(handle, (usb_device_get_hid_report_descriptor_struct_t *)param);
}
break;
case kUSB_DeviceEventGetHidPhysicalDescriptor:
if (param)
{
/* Get hid physical descriptor request */
error = USB_DeviceGetHidPhysicalDescriptor(handle,
(usb_device_get_hid_physical_descriptor_struct_t *)param);
}
break;
default:
break;
}
/*!
* @brief USB device callback function.
*
* This function handles the usb device specific requests.
*
* @param handle The USB device handle.
* @param event The USB device event type.
* @param param The parameter of the device specific request.
*
* @return A USB error code or kStatus_USB_Success.
*/
usb_status_t USB_DeviceCallback(usb_device_handle handle, uint32_t event, void *param)
{
usb_status_t error = kStatus_USB_Error;
uint8_t *temp8 = (uint8_t *)param;
uint16_t *temp16 = (uint16_t *)param;
switch (event)
{
case kUSB_DeviceEventBusReset:
{
/* The device BUS reset signal detected */
s_audioGenerator.attach = 0U;
error = kStatus_USB_Success;
#if defined(USB_DEVICE_CONFIG_EHCI) && (USB_DEVICE_CONFIG_EHCI > 0U)
if (kStatus_USB_Success == USB_DeviceClassGetSpeed(CONTROLLER_ID, &s_audioGenerator.speed))
{
USB_DeviceSetSpeed(handle, s_audioGenerator.speed);
}
#endif
}
break;
case kUSB_DeviceEventSetConfiguration:
if (USB_AUDIO_GENERATOR_CONFIGURE_INDEX == (*temp8))
{
/* Set the configuration request */
s_audioGenerator.attach = 1U;
s_audioGenerator.currentConfiguration = *temp8;
}
break;
case kUSB_DeviceEventSetInterface:
if (s_audioGenerator.attach)
{
/* Set alternateSetting of the interface request */
uint8_t interface = (uint8_t)((*temp16 & 0xFF00U) >> 0x08U);
uint8_t alternateSetting = (uint8_t)(*temp16 & 0x00FFU);
if (s_audioGenerator.currentInterfaceAlternateSetting[interface] != alternateSetting)
{
s_audioGenerator.currentInterfaceAlternateSetting[interface] = alternateSetting;
if (alternateSetting == 1U)
{
USB_PrepareData();
USB_DeviceAudioSend(s_audioGenerator.audioHandle, USB_AUDIO_STREAM_ENDPOINT, s_wavBuff,
(USB_SPEED_HIGH == s_audioGenerator.speed) ? HS_ISO_IN_ENDP_PACKET_SIZE :
FS_ISO_IN_ENDP_PACKET_SIZE);
}
}
}
break;
case kUSB_DeviceEventGetConfiguration:
if (param)
{
/* Get the current configuration request */
*temp8 = s_audioGenerator.currentConfiguration;
error = kStatus_USB_Success;
}
break;
case kUSB_DeviceEventGetInterface:
if (param)
{
uint8_t interface = (uint8_t)((*temp16 & 0xFF00U) >> 0x08U);
if (interface < USB_AUDIO_GENERATOR_INTERFACE_COUNT)
{
*temp16 = (*temp16 & 0xFF00U) | s_audioGenerator.currentInterfaceAlternateSetting[interface];
error = kStatus_USB_Success;
}
else
{
error = kStatus_USB_InvalidRequest;
}
}
break;
case kUSB_DeviceEventGetDeviceDescriptor:
if (param)
{
/* Get the device descriptor request */
error = USB_DeviceGetDeviceDescriptor(handle, (usb_device_get_device_descriptor_struct_t *)param);
}
break;
case kUSB_DeviceEventGetConfigurationDescriptor:
if (param)
{
/* Get the configuration descriptor request */
error = USB_DeviceGetConfigurationDescriptor(handle,
(usb_device_get_configuration_descriptor_struct_t *)param);
}
break;
case kUSB_DeviceEventGetStringDescriptor:
if (param)
{
/* Get the string descriptor request */
error = USB_DeviceGetStringDescriptor(handle, (usb_device_get_string_descriptor_struct_t *)param);
}
break;
default:
break;
}
/*!
* @brief device callback function.
*
* This function handle the usb standard event. more information, please refer to usb spec chapter 9.
* @param handle The USB device handle.
* @param event The USB device event type.
* @param param The parameter of the device specific request.
* @return kStatus_USB_Success or error.
*/
usb_status_t USB_DeviceCallback(usb_device_handle handle, uint32_t event, void *param)
{
usb_status_t error = kStatus_USB_Error;
uint16_t *temp16 = (uint16_t *)param;
uint8_t *temp8 = (uint8_t *)param;
switch (event)
{
case kUSB_DeviceEventBusReset:
{
g_msc.attach = 0;
error = kStatus_USB_Success;
#if defined(USB_DEVICE_CONFIG_EHCI) && (USB_DEVICE_CONFIG_EHCI > 0)
if (kStatus_USB_Success == USB_DeviceClassGetSpeed(CONTROLLER_ID, &g_msc.speed))
{
USB_DeviceSetSpeed(handle, g_msc.speed);
}
#endif
}
break;
case kUSB_DeviceEventSetConfiguration:
if (param)
{
g_msc.attach = 1;
g_msc.currentConfiguration = *temp8;
}
break;
case kUSB_DeviceEventSetInterface:
if (g_msc.attach)
{
uint8_t interface = (uint8_t)((*temp16 & 0xFF00U) >> 0x08U);
uint8_t alternateSetting = (uint8_t)(*temp16 & 0x00FFU);
if (interface < USB_MSC_INTERFACE_COUNT)
{
g_msc.currentInterfaceAlternateSetting[interface] = alternateSetting;
}
}
break;
case kUSB_DeviceEventGetConfiguration:
if (param)
{
*temp8 = g_msc.currentConfiguration;
error = kStatus_USB_Success;
}
break;
case kUSB_DeviceEventGetInterface:
if (param)
{
uint8_t interface = (uint8_t)((*temp16 & 0xFF00U) >> 0x08U);
if (interface < USB_INTERFACE_COUNT)
{
*temp16 = (*temp16 & 0xFF00U) | g_msc.currentInterfaceAlternateSetting[interface];
error = kStatus_USB_Success;
}
else
{
error = kStatus_USB_InvalidRequest;
}
}
break;
case kUSB_DeviceEventGetDeviceDescriptor:
if (param)
{
error = USB_DeviceGetDeviceDescriptor(handle, (usb_device_get_device_descriptor_struct_t *)param);
}
break;
case kUSB_DeviceEventGetConfigurationDescriptor:
if (param)
{
error = USB_DeviceGetConfigurationDescriptor(handle,
(usb_device_get_configuration_descriptor_struct_t *)param);
}
break;
case kUSB_DeviceEventGetStringDescriptor:
if (param)
{
error = USB_DeviceGetStringDescriptor(handle, (usb_device_get_string_descriptor_struct_t *)param);
}
break;
default:
break;
}
/* The device callback */
static usb_status_t USB_DeviceCallback(usb_device_handle handle, uint32_t event, void *param)
{
usb_status_t error = kStatus_USB_Success;
uint8_t *temp8 = (uint8_t *)param;
uint16_t *temp16 = (uint16_t *)param;
switch (event)
{
case kUSB_DeviceEventBusReset:
{
/* The device BUS reset signal detected */
USB_DeviceVideoApplicationSetDefault();
#if defined(USB_DEVICE_CONFIG_EHCI) && (USB_DEVICE_CONFIG_EHCI > 0U)
if (kStatus_USB_Success == USB_DeviceGetStatus(g_UsbDeviceVideoVirtualCamera.deviceHandle,
kUSB_DeviceStatusSpeed,
&g_UsbDeviceVideoVirtualCamera.speed))
{
USB_DeviceSetSpeed(g_UsbDeviceVideoVirtualCamera.deviceHandle, g_UsbDeviceVideoVirtualCamera.speed);
}
if (USB_SPEED_HIGH == g_UsbDeviceVideoVirtualCamera.speed)
{
g_UsbDeviceVideoVirtualCamera.currentMaxPacketSize = HS_STREAM_IN_PACKET_SIZE;
}
#endif
}
break;
case kUSB_DeviceEventSetConfiguration:
if (USB_VIDEO_VIRTUAL_CAMERA_CONFIGURE_INDEX == (*temp8))
{
/* Set the configuration request */
g_UsbDeviceVideoVirtualCamera.attach = 1U;
g_UsbDeviceVideoVirtualCamera.currentConfiguration = *temp8;
}
break;
case kUSB_DeviceEventSetInterface:
if ((g_UsbDeviceVideoVirtualCamera.attach) && param)
{
/* Set alternateSetting of the interface request */
uint8_t interface = (uint8_t)((*temp16 & 0xFF00U) >> 0x08U);
uint8_t alternateSetting = (uint8_t)(*temp16 & 0x00FFU);
if (g_UsbDeviceVideoVirtualCamera.currentInterfaceAlternateSetting[interface] != alternateSetting)
{
if (!g_UsbDeviceVideoVirtualCamera.currentInterfaceAlternateSetting[interface])
{
if (USB_VIDEO_VIRTUAL_CAMERA_STREAM_INTERFACE_INDEX == interface)
{
USB_DeviceVideoPrepareVideoData();
error = USB_DeviceSendRequest(g_UsbDeviceVideoVirtualCamera.deviceHandle,
USB_VIDEO_VIRTUAL_CAMERA_STREAM_ENDPOINT_IN,
g_UsbDeviceVideoVirtualCamera.imageBuffer,
g_UsbDeviceVideoVirtualCamera.imageBufferLength);
}
}
g_UsbDeviceVideoVirtualCamera.currentInterfaceAlternateSetting[interface] = alternateSetting;
}
}
break;
case kUSB_DeviceEventGetConfiguration:
if (param)
{
/* Get the current configuration request */
*temp8 = g_UsbDeviceVideoVirtualCamera.currentConfiguration;
error = kStatus_USB_Success;
}
break;
case kUSB_DeviceEventGetInterface:
if (param)
{
/* Set the alternateSetting of the interface request */
uint8_t interface = (uint8_t)((*temp16 & 0xFF00U) >> 0x08U);
if (interface < USB_VIDEO_VIRTUAL_CAMERA_INTERFACE_COUNT)
{
*temp16 =
(*temp16 & 0xFF00U) | g_UsbDeviceVideoVirtualCamera.currentInterfaceAlternateSetting[interface];
error = kStatus_USB_Success;
}
else
{
error = kStatus_USB_InvalidRequest;
}
}
break;
case kUSB_DeviceEventGetDeviceDescriptor:
if (param)
{
/* Get the device descriptor request */
error = USB_DeviceGetDeviceDescriptor(handle, (usb_device_get_device_descriptor_struct_t *)param);
}
break;
case kUSB_DeviceEventGetConfigurationDescriptor:
if (param)
{
/* Get the configuration descriptor request */
error = USB_DeviceGetConfigurationDescriptor(handle,
(usb_device_get_configuration_descriptor_struct_t *)param);
}
break;
case kUSB_DeviceEventGetStringDescriptor:
if (param)
{
/* Get the string descriptor request */
error = USB_DeviceGetStringDescriptor(handle, (usb_device_get_string_descriptor_struct_t *)param);
}
break;
default:
break;
}
