Embedded_SDK
/
MCUXpresso_MIMXRT1021xxxxx
1
0
Fork 0
Code Issues Pull Requests Packages Projects Releases Wiki Activity
MCUXpresso_MIMXRT1021xxxxx/boards/evkmimxrt1020/bootloader_examples/flashloader/usb_device_ch9.c

1275 lines
57 KiB
C
Raw Blame History

/*
* Copyright (c) 2015 - 2016, Freescale Semiconductor, Inc.
* Copyright 2016 NXP
* All rights reserved.
*
* SPDX-License-Identifier: BSD-3-Clause
*/
#include "usb_device_config.h"
#include "usb.h"
#include "usb_device.h"
#include "usb_device_dci.h"
#include "usb_device_class.h"
#include "usb_device_ch9.h"
#if ((defined(USB_DEVICE_CONFIG_NUM)) && (USB_DEVICE_CONFIG_NUM > 0U))
/*******************************************************************************
* Definitions
******************************************************************************/
/*!
* @brief Standard request callback function typedef.
*
* This function is used to handle the standard request.
*
* @param handle The device handle. It equals the value returned from USB_DeviceInit.
* @param setup The pointer of the setup packet.
* @param buffer It is an out parameter, is used to save the buffer address to response the host's request.
* @param length It is an out parameter, the data length.
*
* @return A USB error code or kStatus_USB_Success.
*/
typedef usb_status_t (*usb_standard_request_callback_t)(usb_device_common_class_struct_t *classHandle,
usb_setup_struct_t *setup,
uint8_t **buffer,
uint32_t *length);
/*******************************************************************************
* Prototypes
******************************************************************************/
static usb_status_t USB_DeviceCh9GetStatus(usb_device_common_class_struct_t *classHandle,
usb_setup_struct_t *setup,
uint8_t **buffer,
uint32_t *length);
static usb_status_t USB_DeviceCh9SetClearFeature(usb_device_common_class_struct_t *classHandle,
usb_setup_struct_t *setup,
uint8_t **buffer,
uint32_t *length);
static usb_status_t USB_DeviceCh9SetAddress(usb_device_common_class_struct_t *classHandle,
usb_setup_struct_t *setup,
uint8_t **buffer,
uint32_t *length);
static usb_status_t USB_DeviceCh9GetDescriptor(usb_device_common_class_struct_t *classHandle,
usb_setup_struct_t *setup,
uint8_t **buffer,
uint32_t *length);
static usb_status_t USB_DeviceCh9GetConfiguration(usb_device_common_class_struct_t *classHandle,
usb_setup_struct_t *setup,
uint8_t **buffer,
uint32_t *length);
static usb_status_t USB_DeviceCh9SetConfiguration(usb_device_common_class_struct_t *classHandle,
usb_setup_struct_t *setup,
uint8_t **buffer,
uint32_t *length);
static usb_status_t USB_DeviceCh9GetInterface(usb_device_common_class_struct_t *classHandle,
usb_setup_struct_t *setup,
uint8_t **buffer,
uint32_t *length);
static usb_status_t USB_DeviceCh9SetInterface(usb_device_common_class_struct_t *classHandle,
usb_setup_struct_t *setup,
uint8_t **buffer,
uint32_t *length);
static usb_status_t USB_DeviceCh9SynchFrame(usb_device_common_class_struct_t *classHandle,
usb_setup_struct_t *setup,
uint8_t **buffer,
uint32_t *length);
/*******************************************************************************
* Variables
******************************************************************************/
/* The function list to handle the standard request. */
static const usb_standard_request_callback_t s_UsbDeviceStandardRequest[] = {
USB_DeviceCh9GetStatus,
USB_DeviceCh9SetClearFeature,
(usb_standard_request_callback_t)NULL,
USB_DeviceCh9SetClearFeature,
(usb_standard_request_callback_t)NULL,
USB_DeviceCh9SetAddress,
USB_DeviceCh9GetDescriptor,
(usb_standard_request_callback_t)NULL,
USB_DeviceCh9GetConfiguration,
USB_DeviceCh9SetConfiguration,
USB_DeviceCh9GetInterface,
USB_DeviceCh9SetInterface,
USB_DeviceCh9SynchFrame,
};
/*******************************************************************************
* Code
******************************************************************************/
/*!
* @brief Handle get status request.
*
* This function is used to handle get status request.
*
* @param handle The device handle. It equals the value returned from USB_DeviceInit.
* @param setup The pointer of the setup packet.
* @param buffer It is an out parameter, is used to save the buffer address to response the host's request.
* @param length It is an out parameter, the data length.
*
* @retval kStatus_USB_Success The request is handled successfully.
* @retval kStatus_USB_InvalidRequest The request can not be handle in current device state,
* or, the request is unsupported.
*/
static usb_status_t USB_DeviceCh9GetStatus(usb_device_common_class_struct_t *classHandle,
usb_setup_struct_t *setup,
uint8_t **buffer,
uint32_t *length)
{
usb_status_t error = kStatus_USB_InvalidRequest;
uint8_t state = 0U;
if (((setup->bmRequestType & USB_REQUEST_TYPE_DIR_MASK) != USB_REQUEST_TYPE_DIR_IN) || (setup->wValue != 0U) ||
(setup->wLength != 2U))
{
return error;
}
#if (defined(USB_DEVICE_CONFIG_RETURN_VALUE_CHECK) && (USB_DEVICE_CONFIG_RETURN_VALUE_CHECK > 0U))
if (kStatus_USB_Success != USB_DeviceGetStatus(classHandle->handle, kUSB_DeviceStatusDeviceState, &state))
{
return kStatus_USB_Error;
}
#else
(void)USB_DeviceGetStatus(classHandle->handle, kUSB_DeviceStatusDeviceState, &state);
#endif
if (((uint8_t)kUSB_DeviceStateAddress != state) && ((uint8_t)kUSB_DeviceStateConfigured != state))
{
return error;
}
if ((setup->bmRequestType & USB_REQUEST_TYPE_RECIPIENT_MASK) == USB_REQUEST_TYPE_RECIPIENT_DEVICE)
{
#if (defined(USB_DEVICE_CONFIG_OTG) && (USB_DEVICE_CONFIG_OTG))
if (setup->wIndex == USB_REQUEST_STANDARD_GET_STATUS_OTG_STATUS_SELECTOR)
{
error =
USB_DeviceGetStatus(classHandle->handle, kUSB_DeviceStatusOtg, &classHandle->standardTranscationBuffer);
classHandle->standardTranscationBuffer = USB_SHORT_TO_LITTLE_ENDIAN(classHandle->standardTranscationBuffer);
/* The device status length must be USB_DEVICE_STATUS_SIZE. */
*length = 1;
}
else /* Get the device status */
{
#endif
error = USB_DeviceGetStatus(classHandle->handle, kUSB_DeviceStatusDevice,
&classHandle->standardTranscationBuffer);
classHandle->standardTranscationBuffer =
classHandle->standardTranscationBuffer & USB_GET_STATUS_DEVICE_MASK;
classHandle->standardTranscationBuffer = USB_SHORT_TO_LITTLE_ENDIAN(classHandle->standardTranscationBuffer);
/* The device status length must be USB_DEVICE_STATUS_SIZE. */
*length = USB_DEVICE_STATUS_SIZE;
#if (defined(USB_DEVICE_CONFIG_OTG) && (USB_DEVICE_CONFIG_OTG))
}
#endif
}
else if ((setup->bmRequestType & USB_REQUEST_TYPE_RECIPIENT_MASK) == USB_REQUEST_TYPE_RECIPIENT_INTERFACE)
{
#if ((defined(USB_DEVICE_CONFIG_ROOT2_TEST)) && (USB_DEVICE_CONFIG_ROOT2_TEST > 0U))
if (((uint8_t)kUSB_DeviceStateAddress == state) ||
(((uint8_t)kUSB_DeviceStateConfigured == state) && (0U == setup->wIndex)))
{
/* In valid address state, device must stall the status stage for get status (interface) request.
In configured state, device must stall the status stage for get status (interface 0) request */
return error;
}
#endif
/* Get the interface status */
error = kStatus_USB_Success;
classHandle->standardTranscationBuffer = 0U;
/* The interface status length must be USB_INTERFACE_STATUS_SIZE. */
*length = USB_INTERFACE_STATUS_SIZE;
}
else if ((setup->bmRequestType & USB_REQUEST_TYPE_RECIPIENT_MASK) == USB_REQUEST_TYPE_RECIPIENT_ENDPOINT)
{
#if ((defined(USB_DEVICE_CONFIG_ROOT2_TEST)) && (USB_DEVICE_CONFIG_ROOT2_TEST > 0U))
if ((USB_CONTROL_ENDPOINT != (setup->wIndex & USB_ENDPOINT_NUMBER_MASK)) &&
((uint8_t)kUSB_DeviceStateAddress == state))
{
/* In valid address, device must stall the status stage for get status (EP) request for no-control endpoint
*/
return error;
}
#endif
/* Get the endpoint status */
usb_device_endpoint_status_struct_t endpointStatus;
endpointStatus.endpointAddress = (uint8_t)setup->wIndex;
endpointStatus.endpointStatus = (uint16_t)kUSB_DeviceEndpointStateIdle;
error = USB_DeviceGetStatus(classHandle->handle, kUSB_DeviceStatusEndpoint, &endpointStatus);
classHandle->standardTranscationBuffer = endpointStatus.endpointStatus & USB_GET_STATUS_ENDPOINT_MASK;
classHandle->standardTranscationBuffer = USB_SHORT_TO_LITTLE_ENDIAN(classHandle->standardTranscationBuffer);
/* The endpoint status length must be USB_INTERFACE_STATUS_SIZE. */
*length = USB_ENDPOINT_STATUS_SIZE;
}
else
{
/*no action*/
}
*buffer = (uint8_t *)&classHandle->standardTranscationBuffer;
return error;
}
/*!
* @brief Handle set or clear device feature request.
*
* This function is used to handle set or clear device feature request.
*
* @param handle The device handle. It equals the value returned from USB_DeviceInit.
* @param setup The pointer of the setup packet.
* @param buffer It is an out parameter, is used to save the buffer address to response the host's request.
* @param length It is an out parameter, the data length.
*
* @retval kStatus_USB_Success The request is handled successfully.
* @retval kStatus_USB_InvalidRequest The request can not be handle in current device state,
* or, the request is unsupported.
*/
static usb_status_t USB_DeviceCh9SetClearFeature(usb_device_common_class_struct_t *classHandle,
usb_setup_struct_t *setup,
uint8_t **buffer,
uint32_t *length)
{
usb_status_t error = kStatus_USB_InvalidRequest;
uint8_t state = 0U;
uint8_t isSet = 0U;
if (((setup->bmRequestType & USB_REQUEST_TYPE_DIR_MASK) != USB_REQUEST_TYPE_DIR_OUT) || (setup->wLength != 0U))
{
return error;
}
#if (defined(USB_DEVICE_CONFIG_RETURN_VALUE_CHECK) && (USB_DEVICE_CONFIG_RETURN_VALUE_CHECK > 0U))
if (kStatus_USB_Success != USB_DeviceGetStatus(classHandle->handle, kUSB_DeviceStatusDeviceState, &state))
{
return kStatus_USB_Error;
}
#else
(void)USB_DeviceGetStatus(classHandle->handle, kUSB_DeviceStatusDeviceState, &state);
#endif
if (((uint8_t)kUSB_DeviceStateAddress != state) && ((uint8_t)kUSB_DeviceStateConfigured != state))
{
return error;
}
/* Identify the request is set or clear the feature. */
if (USB_REQUEST_STANDARD_SET_FEATURE == setup->bRequest)
{
isSet = 1U;
}
if ((setup->bmRequestType & USB_REQUEST_TYPE_RECIPIENT_MASK) == USB_REQUEST_TYPE_RECIPIENT_DEVICE)
{
/* Set or Clear the device feature. */
if (USB_REQUEST_STANDARD_FEATURE_SELECTOR_DEVICE_REMOTE_WAKEUP == setup->wValue)
{
#if ((defined(USB_DEVICE_CONFIG_REMOTE_WAKEUP)) && (USB_DEVICE_CONFIG_REMOTE_WAKEUP > 0U))
USB_DeviceSetStatus(classHandle->handle, kUSB_DeviceStatusRemoteWakeup, &isSet);
#endif
/* Set or Clear the device remote wakeup feature. */
error = USB_DeviceClassCallback(classHandle->handle, (uint32_t)kUSB_DeviceEventSetRemoteWakeup, &isSet);
}
#if ((defined(USB_DEVICE_CONFIG_EHCI) && (USB_DEVICE_CONFIG_EHCI > 0U)) || \
(defined(USB_DEVICE_CONFIG_LPCIP3511HS) && (USB_DEVICE_CONFIG_LPCIP3511HS > 0U))) && \
(defined(USB_DEVICE_CONFIG_USB20_TEST_MODE) && (USB_DEVICE_CONFIG_USB20_TEST_MODE > 0U))
else if (USB_REQUEST_STANDARD_FEATURE_SELECTOR_DEVICE_TEST_MODE == setup->wValue)
{
state = kUSB_DeviceStateTestMode;
error = USB_DeviceSetStatus(classHandle->handle, kUSB_DeviceStatusDeviceState, &state);
}
#endif
#if (defined(USB_DEVICE_CONFIG_OTG) && (USB_DEVICE_CONFIG_OTG))
else if (USB_REQUEST_STANDARD_FEATURE_SELECTOR_B_HNP_ENABLE == setup->wValue)
{
error = USB_DeviceClassCallback(classHandle->handle, kUSB_DeviceEventSetBHNPEnable, &isSet);
}
#endif
else
{
}
}
else if ((setup->bmRequestType & USB_REQUEST_TYPE_RECIPIENT_MASK) == USB_REQUEST_TYPE_RECIPIENT_ENDPOINT)
{
/* Set or Clear the endpoint feature. */
if (USB_REQUEST_STANDARD_FEATURE_SELECTOR_ENDPOINT_HALT == setup->wValue)
{
#if ((defined(USB_DEVICE_CONFIG_ROOT2_TEST)) && (USB_DEVICE_CONFIG_ROOT2_TEST > 0U))
if ((USB_CONTROL_ENDPOINT != (setup->wIndex & USB_ENDPOINT_NUMBER_MASK)) &&
(kUSB_DeviceStateConfigured != state))
{
/* In no-configured state, device must stall the status stage for clear/set feature halt requests for
* no-control endpoint */
return error;
}
else
{
/* In configured state, device must stall the status stage for clear/set feature halt for no-initialized
EP. For contol EP, device must accept status stage of Set Feature Halt (Endpoint 80) in Addressed
State */
usb_device_endpoint_status_struct_t endpointStatus;
endpointStatus.endpointAddress = (uint8_t)setup->wIndex;
error = USB_DeviceGetStatus(classHandle->handle, kUSB_DeviceStatusEndpoint, &endpointStatus);
if (kStatus_USB_Success != error)
{
return error;
}
}
#else
if (USB_CONTROL_ENDPOINT == (setup->wIndex & USB_ENDPOINT_NUMBER_MASK))
{
/* Set or Clear the control endpoint status(halt or not). */
if (0U != isSet)
{
#if (defined(USB_DEVICE_CONFIG_RETURN_VALUE_CHECK) && (USB_DEVICE_CONFIG_RETURN_VALUE_CHECK > 0U))
if (kStatus_USB_Success != USB_DeviceStallEndpoint(classHandle->handle, (uint8_t)setup->wIndex))
{
return kStatus_USB_Error;
}
#else
(void)USB_DeviceStallEndpoint(classHandle->handle, (uint8_t)setup->wIndex);
#endif
}
else
{
#if (defined(USB_DEVICE_CONFIG_RETURN_VALUE_CHECK) && (USB_DEVICE_CONFIG_RETURN_VALUE_CHECK > 0U))
if (kStatus_USB_Success != USB_DeviceUnstallEndpoint(classHandle->handle, (uint8_t)setup->wIndex))
{
return kStatus_USB_Error;
}
#else
(void)USB_DeviceUnstallEndpoint(classHandle->handle, (uint8_t)setup->wIndex);
#endif
}
}
#endif
/* Set or Clear the endpoint status feature. */
if (0U != isSet)
{
error = USB_DeviceClassEvent(classHandle->handle, kUSB_DeviceClassEventSetEndpointHalt, &setup->wIndex);
}
else
{
error =
USB_DeviceClassEvent(classHandle->handle, kUSB_DeviceClassEventClearEndpointHalt, &setup->wIndex);
}
}
else
{
/*no action*/
}
}
else
{
/*no action*/
}
return error;
}
/*!
* @brief Handle set address request.
*
* This function is used to handle set address request.
*
* @param handle The device handle. It equals the value returned from USB_DeviceInit.
* @param setup The pointer of the setup packet.
* @param buffer It is an out parameter, is used to save the buffer address to response the host's request.
* @param length It is an out parameter, the data length.
*
* @retval kStatus_USB_Success The request is handled successfully.
* @retval kStatus_USB_InvalidRequest The request can not be handle in current device state.
*/
static usb_status_t USB_DeviceCh9SetAddress(usb_device_common_class_struct_t *classHandle,
usb_setup_struct_t *setup,
uint8_t **buffer,
uint32_t *length)
{
usb_status_t error = kStatus_USB_InvalidRequest;
uint8_t state = 0U;
if (((setup->bmRequestType & USB_REQUEST_TYPE_DIR_MASK) != USB_REQUEST_TYPE_DIR_OUT) ||
((setup->bmRequestType & USB_REQUEST_TYPE_RECIPIENT_MASK) != USB_REQUEST_TYPE_RECIPIENT_DEVICE) ||
(setup->wIndex != 0U) || (setup->wLength != 0U))
{
return error;
}
#if (defined(USB_DEVICE_CONFIG_RETURN_VALUE_CHECK) && (USB_DEVICE_CONFIG_RETURN_VALUE_CHECK > 0U))
if (kStatus_USB_Success != USB_DeviceGetStatus(classHandle->handle, kUSB_DeviceStatusDeviceState, &state))
{
return kStatus_USB_Error;
}
#else
(void)USB_DeviceGetStatus(classHandle->handle, kUSB_DeviceStatusDeviceState, &state);
#endif
if (((uint8_t)kUSB_DeviceStateAddressing != state) && ((uint8_t)kUSB_DeviceStateAddress != state) &&
((uint8_t)kUSB_DeviceStateDefault != state)
#if ((defined(USB_DEVICE_CONFIG_ROOT2_TEST)) && (USB_DEVICE_CONFIG_ROOT2_TEST > 0U))
#else
&& ((uint8_t)kUSB_DeviceStateConfigured != state)
#endif
)
{
return error;
}
if ((uint8_t)kUSB_DeviceStateAddressing != state)
{
/* If the device address is not setting, pass the address and the device state will change to
* kUSB_DeviceStateAddressing internally. */
state = (uint8_t)(setup->wValue & 0xFFU);
#if ((defined(USB_DEVICE_CONFIG_ROOT2_TEST)) && (USB_DEVICE_CONFIG_ROOT2_TEST > 0U))
/* Setting the address to 128 or above should not be allowed. */
if (state >= 0x80U)
{
return error;
}
#endif
error = USB_DeviceSetStatus(classHandle->handle, kUSB_DeviceStatusAddress, &state);
}
else
{
/* If the device address is setting, set device address and the address will be write into the controller
* internally. */
error = USB_DeviceSetStatus(classHandle->handle, kUSB_DeviceStatusAddress, NULL);
/* And then change the device state to kUSB_DeviceStateAddress. */
if (kStatus_USB_Success == error)
{
state = (uint8_t)kUSB_DeviceStateAddress;
error = USB_DeviceSetStatus(classHandle->handle, kUSB_DeviceStatusDeviceState, &state);
}
}
return error;
}
/*!
* @brief Handle get descriptor request.
*
* This function is used to handle get descriptor request.
*
* @param handle The device handle. It equals the value returned from USB_DeviceInit.
* @param setup The pointer of the setup packet.
* @param buffer It is an out parameter, is used to save the buffer address to response the host's request.
* @param length It is an out parameter, the data length.
*
* @retval kStatus_USB_Success The request is handled successfully.
* @retval kStatus_USB_InvalidRequest The request can not be handle in current device state,
* or, the request is unsupported.
*/
static usb_status_t USB_DeviceCh9GetDescriptor(usb_device_common_class_struct_t *classHandle,
usb_setup_struct_t *setup,
uint8_t **buffer,
uint32_t *length)
{
usb_device_get_descriptor_common_union_t commonDescriptor;
usb_status_t error = kStatus_USB_InvalidRequest;
uint8_t state = 0U;
uint8_t descriptorType = (uint8_t)((setup->wValue & 0xFF00U) >> 8U);
uint8_t descriptorIndex = (uint8_t)((setup->wValue & 0x00FFU));
if ((setup->bmRequestType & USB_REQUEST_TYPE_DIR_MASK) != USB_REQUEST_TYPE_DIR_IN)
{
return error;
}
#if (defined(USB_DEVICE_CONFIG_RETURN_VALUE_CHECK) && (USB_DEVICE_CONFIG_RETURN_VALUE_CHECK > 0U))
if (kStatus_USB_Success != USB_DeviceGetStatus(classHandle->handle, kUSB_DeviceStatusDeviceState, &state))
{
return kStatus_USB_Error;
}
#else
(void)USB_DeviceGetStatus(classHandle->handle, kUSB_DeviceStatusDeviceState, &state);
#endif
if (((uint8_t)kUSB_DeviceStateAddress != state) && ((uint8_t)kUSB_DeviceStateConfigured != state) &&
((uint8_t)kUSB_DeviceStateDefault != state))
{
return error;
}
commonDescriptor.commonDescriptor.length = setup->wLength;
if (USB_DESCRIPTOR_TYPE_DEVICE == descriptorType)
{
/* Get the device descriptor */
if (((setup->bmRequestType & USB_REQUEST_TYPE_RECIPIENT_MASK) == USB_REQUEST_TYPE_RECIPIENT_DEVICE) &&
(descriptorIndex == 0U) && (setup->wIndex == 0U))
{
error = USB_DeviceClassCallback(classHandle->handle, (uint32_t)kUSB_DeviceEventGetDeviceDescriptor,
&commonDescriptor.deviceDescriptor);
}
}
else if (USB_DESCRIPTOR_TYPE_CONFIGURE == descriptorType)
{
/* Get the configuration descriptor */
if (((setup->bmRequestType & USB_REQUEST_TYPE_RECIPIENT_MASK) == USB_REQUEST_TYPE_RECIPIENT_DEVICE) &&
(setup->wIndex == 0U))
{
commonDescriptor.configurationDescriptor.configuration = descriptorIndex;
error = USB_DeviceClassCallback(classHandle->handle, (uint32_t)kUSB_DeviceEventGetConfigurationDescriptor,
&commonDescriptor.configurationDescriptor);
}
}
else if (USB_DESCRIPTOR_TYPE_STRING == descriptorType)
{
/* Get the string descriptor */
if ((setup->bmRequestType & USB_REQUEST_TYPE_RECIPIENT_MASK) == USB_REQUEST_TYPE_RECIPIENT_DEVICE)
{
commonDescriptor.stringDescriptor.stringIndex = descriptorIndex;
commonDescriptor.stringDescriptor.languageId = setup->wIndex;
error = USB_DeviceClassCallback(classHandle->handle, (uint32_t)kUSB_DeviceEventGetStringDescriptor,
&commonDescriptor.stringDescriptor);
}
}
#if (defined(USB_DEVICE_CONFIG_HID) && (USB_DEVICE_CONFIG_HID > 0U))
else if (USB_DESCRIPTOR_TYPE_HID == descriptorType)
{
/* Get the hid descriptor */
if (((setup->bmRequestType & USB_REQUEST_TYPE_RECIPIENT_MASK) == USB_REQUEST_TYPE_RECIPIENT_INTERFACE) &&
(descriptorIndex == 0U))
{
commonDescriptor.hidDescriptor.interfaceNumber = (uint8_t)setup->wIndex;
error = USB_DeviceClassCallback(classHandle->handle, (uint32_t)kUSB_DeviceEventGetHidDescriptor,
&commonDescriptor.hidDescriptor);
}
}
else if (USB_DESCRIPTOR_TYPE_HID_REPORT == descriptorType)
{
/* Get the hid report descriptor */
if (((setup->bmRequestType & USB_REQUEST_TYPE_RECIPIENT_MASK) == USB_REQUEST_TYPE_RECIPIENT_INTERFACE) &&
(descriptorIndex == 0U))
{
commonDescriptor.hidReportDescriptor.interfaceNumber = (uint8_t)setup->wIndex;
error = USB_DeviceClassCallback(classHandle->handle, (uint32_t)kUSB_DeviceEventGetHidReportDescriptor,
&commonDescriptor.hidReportDescriptor);
}
}
else if (USB_DESCRIPTOR_TYPE_HID_PHYSICAL == descriptorType)
{
/* Get the hid physical descriptor */
if ((setup->bmRequestType & USB_REQUEST_TYPE_RECIPIENT_MASK) == USB_REQUEST_TYPE_RECIPIENT_INTERFACE)
{
commonDescriptor.hidPhysicalDescriptor.index = descriptorIndex;
commonDescriptor.hidPhysicalDescriptor.interfaceNumber = (uint8_t)setup->wIndex;
error = USB_DeviceClassCallback(classHandle->handle, (uint32_t)kUSB_DeviceEventGetHidPhysicalDescriptor,
&commonDescriptor.hidPhysicalDescriptor);
}
}
#endif
#if (defined(USB_DEVICE_CONFIG_CV_TEST) && (USB_DEVICE_CONFIG_CV_TEST > 0U))
else if (USB_DESCRIPTOR_TYPE_DEVICE_QUALITIER == descriptorType)
{
/* Get the device descriptor */
if (((setup->bmRequestType & USB_REQUEST_TYPE_RECIPIENT_MASK) == USB_REQUEST_TYPE_RECIPIENT_DEVICE) &&
(descriptorIndex == 0U) && (setup->wIndex == 0U))
{
error = USB_DeviceClassCallback(classHandle->handle, (uint32_t)kUSB_DeviceEventGetDeviceQualifierDescriptor,
&commonDescriptor.deviceDescriptor);
}
}
#endif
#if (defined(USB_DEVICE_CONFIG_LPM_L1) && (USB_DEVICE_CONFIG_LPM_L1 > 0U))
else if (USB_DESCRIPTOR_TYPE_BOS == descriptorType)
{
/* Get the configuration descriptor */
if (((setup->bmRequestType & USB_REQUEST_TYPE_RECIPIENT_MASK) == USB_REQUEST_TYPE_RECIPIENT_DEVICE) &&
(setup->wIndex == 0U))
{
commonDescriptor.configurationDescriptor.configuration = descriptorIndex;
error = USB_DeviceClassCallback(classHandle->handle, (uint32_t)kUSB_DeviceEventGetBOSDescriptor,
&commonDescriptor.configurationDescriptor);
}
}
#endif
else
{
}
*buffer = commonDescriptor.commonDescriptor.buffer;
*length = commonDescriptor.commonDescriptor.length;
return error;
}
/*!
* @brief Handle get current configuration request.
*
* This function is used to handle get current configuration request.
*
* @param handle The device handle. It equals the value returned from USB_DeviceInit.
* @param setup The pointer of the setup packet.
* @param buffer It is an out parameter, is used to save the buffer address to response the host's request.
* @param length It is an out parameter, the data length.
*
* @retval kStatus_USB_Success The request is handled successfully.
* @retval kStatus_USB_InvalidRequest The request can not be handle in current device state,
* or, the request is unsupported.
*/
static usb_status_t USB_DeviceCh9GetConfiguration(usb_device_common_class_struct_t *classHandle,
usb_setup_struct_t *setup,
uint8_t **buffer,
uint32_t *length)
{
uint8_t state = 0U;
if (((setup->bmRequestType & USB_REQUEST_TYPE_DIR_MASK) != USB_REQUEST_TYPE_DIR_IN) ||
((setup->bmRequestType & USB_REQUEST_TYPE_RECIPIENT_MASK) != USB_REQUEST_TYPE_RECIPIENT_DEVICE) ||
(setup->wValue != 0U) || (setup->wIndex != 0U) || (setup->wLength != 1U))
{
return kStatus_USB_InvalidRequest;
}
#if (defined(USB_DEVICE_CONFIG_RETURN_VALUE_CHECK) && (USB_DEVICE_CONFIG_RETURN_VALUE_CHECK > 0U))
if (kStatus_USB_Success != USB_DeviceGetStatus(classHandle->handle, kUSB_DeviceStatusDeviceState, &state))
{
return kStatus_USB_Error;
}
#else
(void)USB_DeviceGetStatus(classHandle->handle, kUSB_DeviceStatusDeviceState, &state);
#endif
if (((uint8_t)kUSB_DeviceStateAddress != state) && (((uint8_t)kUSB_DeviceStateConfigured != state)))
{
return kStatus_USB_InvalidRequest;
}
*length = USB_CONFIGURE_SIZE;
*buffer = (uint8_t *)&classHandle->standardTranscationBuffer;
return USB_DeviceClassCallback(classHandle->handle, (uint8_t)kUSB_DeviceEventGetConfiguration,
&classHandle->standardTranscationBuffer);
}
/*!
* @brief Handle set current configuration request.
*
* This function is used to handle set current configuration request.
*
* @param handle The device handle. It equals the value returned from USB_DeviceInit.
* @param setup The pointer of the setup packet.
* @param buffer It is an out parameter, is used to save the buffer address to response the host's request.
* @param length It is an out parameter, the data length.
*
* @retval kStatus_USB_Success The request is handled successfully.
* @retval kStatus_USB_InvalidRequest The request can not be handle in current device state,
* or, the request is unsupported.
*/
static usb_status_t USB_DeviceCh9SetConfiguration(usb_device_common_class_struct_t *classHandle,
usb_setup_struct_t *setup,
uint8_t **buffer,
uint32_t *length)
{
uint8_t state = 0U;
#if (defined(USB_DEVICE_CONFIG_RETURN_VALUE_CHECK) && (USB_DEVICE_CONFIG_RETURN_VALUE_CHECK > 0U))
usb_status_t error = kStatus_USB_InvalidRequest;
#endif
if (((setup->bmRequestType & USB_REQUEST_TYPE_DIR_MASK) != USB_REQUEST_TYPE_DIR_OUT) ||
((setup->bmRequestType & USB_REQUEST_TYPE_RECIPIENT_MASK) != USB_REQUEST_TYPE_RECIPIENT_DEVICE) ||
(setup->wIndex != 0U) || (setup->wLength != 0U))
{
return kStatus_USB_InvalidRequest;
}
#if (defined(USB_DEVICE_CONFIG_RETURN_VALUE_CHECK) && (USB_DEVICE_CONFIG_RETURN_VALUE_CHECK > 0U))
if (kStatus_USB_Success != USB_DeviceGetStatus(classHandle->handle, kUSB_DeviceStatusDeviceState, &state))
{
return kStatus_USB_Error;
}
#else
(void)USB_DeviceGetStatus(classHandle->handle, kUSB_DeviceStatusDeviceState, &state);
#endif
if (((uint8_t)kUSB_DeviceStateAddress != state) && ((uint8_t)kUSB_DeviceStateConfigured != state))
{
return kStatus_USB_InvalidRequest;
}
/* The device state is changed to kUSB_DeviceStateConfigured */
state = (uint8_t)kUSB_DeviceStateConfigured;
#if (defined(USB_DEVICE_CONFIG_RETURN_VALUE_CHECK) && (USB_DEVICE_CONFIG_RETURN_VALUE_CHECK > 0U))
if (kStatus_USB_Success != USB_DeviceSetStatus(classHandle->handle, kUSB_DeviceStatusDeviceState, &state))
{
return kStatus_USB_Error;
}
#else
(void)USB_DeviceSetStatus(classHandle->handle, kUSB_DeviceStatusDeviceState, &state);
#endif
if (0U == setup->wValue)
{
/* If the new configuration is zero, the device state is changed to kUSB_DeviceStateAddress */
state = (uint8_t)kUSB_DeviceStateAddress;
#if (defined(USB_DEVICE_CONFIG_RETURN_VALUE_CHECK) && (USB_DEVICE_CONFIG_RETURN_VALUE_CHECK > 0U))
if (kStatus_USB_Success != USB_DeviceSetStatus(classHandle->handle, kUSB_DeviceStatusDeviceState, &state))
{
return kStatus_USB_Error;
}
#else
(void)USB_DeviceSetStatus(classHandle->handle, kUSB_DeviceStatusDeviceState, &state);
#endif
}
/* Notify the class layer the configuration is changed */
#if (defined(USB_DEVICE_CONFIG_RETURN_VALUE_CHECK) && (USB_DEVICE_CONFIG_RETURN_VALUE_CHECK > 0U))
error = USB_DeviceClassEvent(classHandle->handle, kUSB_DeviceClassEventSetConfiguration, &setup->wValue);
if (kStatus_USB_Success != error)
{
return error;
}
#else
(void)USB_DeviceClassEvent(classHandle->handle, kUSB_DeviceClassEventSetConfiguration, &setup->wValue);
#endif
/* Notify the application the configuration is changed */
return USB_DeviceClassCallback(classHandle->handle, (uint32_t)kUSB_DeviceEventSetConfiguration, &setup->wValue);
}
/*!
* @brief Handle get the alternate setting of a interface request.
*
* This function is used to handle get the alternate setting of a interface request.
*
* @param handle The device handle. It equals the value returned from USB_DeviceInit.
* @param setup The pointer of the setup packet.
* @param buffer It is an out parameter, is used to save the buffer address to response the host's request.
* @param length It is an out parameter, the data length.
*
* @retval kStatus_USB_Success The request is handled successfully.
* @retval kStatus_USB_InvalidRequest The request can not be handle in current device state,
* or, the request is unsupported.
*/
static usb_status_t USB_DeviceCh9GetInterface(usb_device_common_class_struct_t *classHandle,
usb_setup_struct_t *setup,
uint8_t **buffer,
uint32_t *length)
{
usb_status_t error = kStatus_USB_InvalidRequest;
uint8_t state = 0U;
if (((setup->bmRequestType & USB_REQUEST_TYPE_DIR_MASK) != USB_REQUEST_TYPE_DIR_IN) ||
((setup->bmRequestType & USB_REQUEST_TYPE_RECIPIENT_MASK) != USB_REQUEST_TYPE_RECIPIENT_INTERFACE) ||
(setup->wValue != 0U) || (setup->wLength != 1U))
{
return error;
}
#if (defined(USB_DEVICE_CONFIG_RETURN_VALUE_CHECK) && (USB_DEVICE_CONFIG_RETURN_VALUE_CHECK > 0U))
if (kStatus_USB_Success != USB_DeviceGetStatus(classHandle->handle, kUSB_DeviceStatusDeviceState, &state))
{
return kStatus_USB_Error;
}
#else
(void)USB_DeviceGetStatus(classHandle->handle, kUSB_DeviceStatusDeviceState, &state);
#endif
if (state != (uint8_t)kUSB_DeviceStateConfigured)
{
return error;
}
*length = USB_INTERFACE_SIZE;
*buffer = (uint8_t *)&classHandle->standardTranscationBuffer;
classHandle->standardTranscationBuffer = (uint16_t)(((uint32_t)setup->wIndex & 0xFFU) << 8U);
/* The Bit[15~8] is used to save the interface index, and the alternate setting will be saved in Bit[7~0] by
* application. */
error = USB_DeviceClassCallback(classHandle->handle, (uint32_t)kUSB_DeviceEventGetInterface,
&classHandle->standardTranscationBuffer);
classHandle->standardTranscationBuffer = USB_SHORT_TO_LITTLE_ENDIAN(classHandle->standardTranscationBuffer);
return error;
}
/*!
* @brief Handle set the alternate setting of a interface request.
*
* This function is used to handle set the alternate setting of a interface request.
*
* @param handle The device handle. It equals the value returned from USB_DeviceInit.
* @param setup The pointer of the setup packet.
* @param buffer It is an out parameter, is used to save the buffer address to response the host's request.
* @param length It is an out parameter, the data length.
*
* @retval kStatus_USB_Success The request is handled successfully.
* @retval kStatus_USB_InvalidRequest The request can not be handle in current device state,
* or, the request is unsupported.
*/
static usb_status_t USB_DeviceCh9SetInterface(usb_device_common_class_struct_t *classHandle,
usb_setup_struct_t *setup,
uint8_t **buffer,
uint32_t *length)
{
uint8_t state = 0U;
#if (defined(USB_DEVICE_CONFIG_RETURN_VALUE_CHECK) && (USB_DEVICE_CONFIG_RETURN_VALUE_CHECK > 0U))
usb_status_t error = kStatus_USB_InvalidRequest;
#endif
if (((setup->bmRequestType & USB_REQUEST_TYPE_DIR_MASK) != USB_REQUEST_TYPE_DIR_OUT) ||
((setup->bmRequestType & USB_REQUEST_TYPE_RECIPIENT_MASK) != USB_REQUEST_TYPE_RECIPIENT_INTERFACE) ||
(setup->wLength != 0U))
{
return kStatus_USB_InvalidRequest;
}
#if (defined(USB_DEVICE_CONFIG_RETURN_VALUE_CHECK) && (USB_DEVICE_CONFIG_RETURN_VALUE_CHECK > 0U))
if (kStatus_USB_Success != USB_DeviceGetStatus(classHandle->handle, kUSB_DeviceStatusDeviceState, &state))
{
return kStatus_USB_Error;
}
#else
(void)USB_DeviceGetStatus(classHandle->handle, kUSB_DeviceStatusDeviceState, &state);
#endif
if (state != (uint8_t)kUSB_DeviceStateConfigured)
{
return kStatus_USB_InvalidRequest;
}
classHandle->standardTranscationBuffer = ((setup->wIndex & 0xFFU) << 8U) | (setup->wValue & 0xFFU);
/* Notify the class driver the alternate setting of the interface is changed. */
/* The Bit[15~8] is used to save the interface index, and the alternate setting is saved in Bit[7~0]. */
#if (defined(USB_DEVICE_CONFIG_RETURN_VALUE_CHECK) && (USB_DEVICE_CONFIG_RETURN_VALUE_CHECK > 0U))
error = USB_DeviceClassEvent(classHandle->handle, kUSB_DeviceClassEventSetInterface,
&classHandle->standardTranscationBuffer);
if (kStatus_USB_Success != error)
{
return error;
}
#else
(void)USB_DeviceClassEvent(classHandle->handle, kUSB_DeviceClassEventSetInterface,
&classHandle->standardTranscationBuffer);
#endif
/* Notify the application the alternate setting of the interface is changed. */
/* The Bit[15~8] is used to save the interface index, and the alternate setting will is saved in Bit[7~0]. */
return USB_DeviceClassCallback(classHandle->handle, (uint32_t)kUSB_DeviceEventSetInterface,
&classHandle->standardTranscationBuffer);
}
/*!
* @brief Handle get sync frame request.
*
* This function is used to handle get sync frame request.
*
* @param handle The device handle. It equals the value returned from USB_DeviceInit.
* @param setup The pointer of the setup packet.
* @param buffer It is an out parameter, is used to save the buffer address to response the host's request.
* @param length It is an out parameter, the data length.
*
* @retval kStatus_USB_Success The request is handled successfully.
* @retval kStatus_USB_InvalidRequest The request can not be handle in current device state,
* or, the request is unsupported.
*/
static usb_status_t USB_DeviceCh9SynchFrame(usb_device_common_class_struct_t *classHandle,
usb_setup_struct_t *setup,
uint8_t **buffer,
uint32_t *length)
{
usb_status_t error = kStatus_USB_InvalidRequest;
uint8_t state = 0U;
if (((setup->bmRequestType & USB_REQUEST_TYPE_DIR_MASK) != USB_REQUEST_TYPE_DIR_IN) ||
((setup->bmRequestType & USB_REQUEST_TYPE_RECIPIENT_MASK) != USB_REQUEST_TYPE_RECIPIENT_ENDPOINT) ||
(setup->wValue != 0U) || (setup->wLength != 2U))
{
return error;
}
#if (defined(USB_DEVICE_CONFIG_RETURN_VALUE_CHECK) && (USB_DEVICE_CONFIG_RETURN_VALUE_CHECK > 0U))
if (kStatus_USB_Success != USB_DeviceGetStatus(classHandle->handle, kUSB_DeviceStatusDeviceState, &state))
{
return kStatus_USB_Error;
}
#else
(void)USB_DeviceGetStatus(classHandle->handle, kUSB_DeviceStatusDeviceState, &state);
#endif
if (state != (uint8_t)kUSB_DeviceStateConfigured)
{
return error;
}
/* Synch frame is not implemented by any MS devices. Expected response from device will be STALL until a device
exists that supports this command. At that time this script will need to be updated to support a
response other than STALL */
#if (defined(USB_DEVICE_CONFIG_ROOT2_TEST) && (USB_DEVICE_CONFIG_ROOT2_TEST > 0U))
return error;
#else
classHandle->standardTranscationBuffer = USB_SHORT_FROM_LITTLE_ENDIAN(setup->wIndex);
/* Get the sync frame value */
error =
USB_DeviceGetStatus(classHandle->handle, kUSB_DeviceStatusSynchFrame, &classHandle->standardTranscationBuffer);
*buffer = (uint8_t *)&classHandle->standardTranscationBuffer;
*length = sizeof(classHandle->standardTranscationBuffer);
return error;
#endif
}
/*!
* @brief Send the response to the host.
*
* This function is used to send the response to the host.
*
* There are two cases this function will be called.
* Case one when a setup packet is received in control endpoint callback function:
* 1. If there is not data phase in the setup transfer, the function will prime an IN transfer with the data
* length is zero for status phase.
* 2. If there is an IN data phase, the function will prime an OUT transfer with the actual length to need to
* send for data phase. And then prime an IN transfer with the data length is zero for status phase.
* 3. If there is an OUT data phase, the function will prime an IN transfer with the actual length to want to
* receive for data phase.
*
* Case two when is not a setup packet received in control endpoint callback function:
* 1. The function will prime an IN transfer with data length is zero for status phase.
*
* @param handle The device handle. It equals the value returned from USB_DeviceInit.
* @param setup The pointer of the setup packet.
* @param error The error code returned from the standard request function.
* @param stage The stage of the control transfer.
* @param buffer It is an out parameter, is used to save the buffer address to response the host's request.
* @param length It is an out parameter, the data length.
*
* @return A USB error code or kStatus_USB_Success.
*/
static usb_status_t USB_DeviceControlCallbackFeedback(usb_device_handle handle,
usb_setup_struct_t *setup,
usb_status_t error,
usb_device_control_read_write_sequence_t stage,
uint8_t **buffer,
uint32_t *length)
{
usb_status_t status;
if (kStatus_USB_InvalidRequest == error)
{
/* Stall the control pipe when the request is unsupported. */
status = USB_DeviceStallEndpoint(handle, (uint8_t)USB_CONTROL_ENDPOINT);
}
else
{
if (*length > setup->wLength)
{
*length = setup->wLength;
}
if (kStatus_USB_Success == error)
{
status = USB_DeviceSendRequest(handle, (USB_CONTROL_ENDPOINT), *buffer, *length);
}
else
{
status = USB_DeviceSendRequest(handle, (USB_CONTROL_ENDPOINT), (uint8_t *)NULL, 0U);
}
if ((kStatus_USB_Success == status) &&
(USB_REQUEST_TYPE_DIR_IN == (setup->bmRequestType & USB_REQUEST_TYPE_DIR_MASK)))
{
status = USB_DeviceRecvRequest(handle, (USB_CONTROL_ENDPOINT), (uint8_t *)NULL, 0U);
}
}
return status;
}
/*!
* @brief Control endpoint callback function.
*
* This callback function is used to notify uplayer the transfser result of a transfer.
* This callback pointer is passed when a specified endpoint initialized by calling API USB_DeviceInitEndpoint.
*
* @param handle The device handle. It equals the value returned from USB_DeviceInit.
* @param message The result of a transfer, includes transfer buffer, transfer length and whether is in setup
* phase for control pipe.
* @param callbackParam The parameter for this callback. It is same with
* usb_device_endpoint_callback_struct_t::callbackParam.
*
* @return A USB error code or kStatus_USB_Success.
*/
static usb_status_t USB_DeviceControlCallback(usb_device_handle handle,
usb_device_endpoint_callback_message_struct_t *message,
void *callbackParam)
{
usb_setup_struct_t *deviceSetup, *setup;
usb_device_common_class_struct_t *classHandle;
uint8_t *buffer = (uint8_t *)NULL;
uint32_t length = 0U;
void *temp;
usb_status_t status = kStatus_USB_InvalidRequest;
uint8_t state = 0U;
/* endpoint callback length is USB_CANCELLED_TRANSFER_LENGTH (0xFFFFFFFFU) when transfer is canceled */
if (USB_CANCELLED_TRANSFER_LENGTH == message->length)
{
return kStatus_USB_Success;
}
if (NULL == callbackParam)
{
return status;
}
classHandle = (usb_device_common_class_struct_t *)callbackParam;
temp = (void *)&classHandle->setupBuffer[0];
deviceSetup = (usb_setup_struct_t *)temp;
#if (defined(USB_DEVICE_CONFIG_RETURN_VALUE_CHECK) && (USB_DEVICE_CONFIG_RETURN_VALUE_CHECK > 0U))
if (kStatus_USB_Success != USB_DeviceGetStatus(handle, kUSB_DeviceStatusDeviceState, &state))
{
return kStatus_USB_Error;
}
#else
(void)USB_DeviceGetStatus(handle, kUSB_DeviceStatusDeviceState, &state);
#endif
if (0U != message->isSetup)
{
if ((USB_SETUP_PACKET_SIZE != message->length) || (NULL == message->buffer))
{
/* If a invalid setup is received, the control pipes should be de-init and init again.
* Due to the IP can not meet this require, it is reserved for feature.
*/
/*
USB_DeviceDeinitEndpoint(handle,
USB_CONTROL_ENDPOINT | (USB_IN << USB_DESCRIPTOR_ENDPOINT_ADDRESS_DIRECTION_SHIFT));
USB_DeviceDeinitEndpoint(handle,
USB_CONTROL_ENDPOINT | (USB_OUT << USB_DESCRIPTOR_ENDPOINT_ADDRESS_DIRECTION_SHIFT));
USB_DeviceControlPipeInit(handle, callbackParam);
*/
return status;
}
/* Receive a setup request */
temp = (void *)(message->buffer);
setup = (usb_setup_struct_t *)temp;
/* Copy the setup packet to the application buffer */
deviceSetup->wValue = USB_SHORT_FROM_LITTLE_ENDIAN(setup->wValue);
deviceSetup->wIndex = USB_SHORT_FROM_LITTLE_ENDIAN(setup->wIndex);
deviceSetup->wLength = USB_SHORT_FROM_LITTLE_ENDIAN(setup->wLength);
deviceSetup->bRequest = setup->bRequest;
deviceSetup->bmRequestType = setup->bmRequestType;
/* Check the invalid value */
if ((deviceSetup->bmRequestType & USB_REQUEST_TYPE_RECIPIENT_MASK) > USB_REQUEST_TYPE_RECIPIENT_OTHER)
{
#if (defined(USB_DEVICE_CONFIG_RETURN_VALUE_CHECK) && (USB_DEVICE_CONFIG_RETURN_VALUE_CHECK > 0U))
status = USB_DeviceControlCallbackFeedback(handle, deviceSetup, kStatus_USB_InvalidRequest,
kUSB_DeviceControlPipeSetupStage, NULL, NULL);
return kStatus_USB_InvalidRequest;
#else
(void)USB_DeviceControlCallbackFeedback(handle, deviceSetup, kStatus_USB_InvalidRequest,
kUSB_DeviceControlPipeSetupStage, NULL, NULL);
return status;
#endif
}
if ((deviceSetup->bmRequestType & USB_REQUEST_TYPE_TYPE_MASK) == USB_REQUEST_TYPE_TYPE_STANDARD)
{
/* Handle the standard request, only handle the request in request array. */
if (deviceSetup->bRequest < (sizeof(s_UsbDeviceStandardRequest) / 4U))
{
if (s_UsbDeviceStandardRequest[deviceSetup->bRequest] != (usb_standard_request_callback_t)NULL)
{
status =
s_UsbDeviceStandardRequest[deviceSetup->bRequest](classHandle, deviceSetup, &buffer, &length);
}
}
}
else
{
if ((0U != deviceSetup->wLength) &&
((deviceSetup->bmRequestType & USB_REQUEST_TYPE_DIR_MASK) == USB_REQUEST_TYPE_DIR_OUT))
{
/* Class or vendor request with the OUT data phase. */
if ((0U != deviceSetup->wLength) &&
((deviceSetup->bmRequestType & USB_REQUEST_TYPE_TYPE_MASK) == USB_REQUEST_TYPE_TYPE_CLASS))
{
/* Get data buffer to receive the data from the host. */
usb_device_control_request_struct_t controlRequest;
controlRequest.buffer = (uint8_t *)NULL;
controlRequest.isSetup = 1U;
controlRequest.setup = deviceSetup;
controlRequest.length = deviceSetup->wLength;
status = USB_DeviceClassEvent(handle, kUSB_DeviceClassEventClassRequest, &controlRequest);
length = controlRequest.length;
buffer = controlRequest.buffer;
}
else if ((0U != deviceSetup->wLength) &&
((deviceSetup->bmRequestType & USB_REQUEST_TYPE_TYPE_MASK) == USB_REQUEST_TYPE_TYPE_VENDOR))
{
/* Get data buffer to receive the data from the host. */
usb_device_control_request_struct_t controlRequest;
controlRequest.buffer = (uint8_t *)NULL;
controlRequest.isSetup = 1U;
controlRequest.setup = deviceSetup;
controlRequest.length = deviceSetup->wLength;
status = USB_DeviceClassCallback(handle, (uint32_t)kUSB_DeviceEventVendorRequest, &controlRequest);
length = controlRequest.length;
buffer = controlRequest.buffer;
}
else
{
/*no action*/
}
if (kStatus_USB_Success == status)
{
/* Prime an OUT transfer */
if (length > deviceSetup->wLength)
{
length = deviceSetup->wLength;
}
status = USB_DeviceRecvRequest(handle, USB_CONTROL_ENDPOINT, buffer, length);
return status;
}
else
{
/* Other error codes, will stall control endpoint */
status = kStatus_USB_InvalidRequest;
}
}
else
{
/* Class or vendor request with the IN data phase. */
if (((deviceSetup->bmRequestType & USB_REQUEST_TYPE_TYPE_MASK) == USB_REQUEST_TYPE_TYPE_CLASS))
{
/* Get data buffer to response the host. */
usb_device_control_request_struct_t controlRequest;
controlRequest.buffer = (uint8_t *)NULL;
controlRequest.isSetup = 1U;
controlRequest.setup = deviceSetup;
controlRequest.length = deviceSetup->wLength;
status = USB_DeviceClassEvent(handle, kUSB_DeviceClassEventClassRequest, &controlRequest);
length = controlRequest.length;
buffer = controlRequest.buffer;
}
else if (((deviceSetup->bmRequestType & USB_REQUEST_TYPE_TYPE_MASK) == USB_REQUEST_TYPE_TYPE_VENDOR))
{
/* Get data buffer to response the host. */
usb_device_control_request_struct_t controlRequest;
controlRequest.buffer = (uint8_t *)NULL;
controlRequest.isSetup = 1U;
controlRequest.setup = deviceSetup;
controlRequest.length = deviceSetup->wLength;
status = USB_DeviceClassCallback(handle, (uint32_t)kUSB_DeviceEventVendorRequest, &controlRequest);
length = controlRequest.length;
buffer = controlRequest.buffer;
}
else
{
/*no action*/
}
}
}
/* Buffer that is equal to NULL means the application or classs driver does not prepare a buffer for
sending or receiving the data, so control endpoint will be stalled here. */
if ((0U != length) && (NULL == buffer))
{
status = kStatus_USB_InvalidRequest;
}
/* Send the response to the host. */
status = USB_DeviceControlCallbackFeedback(handle, deviceSetup, status, kUSB_DeviceControlPipeSetupStage,
&buffer, &length);
}
else if ((uint8_t)kUSB_DeviceStateAddressing == state)
{
if (USB_REQUEST_STANDARD_SET_ADDRESS == deviceSetup->bRequest)
{
/* Set the device address to controller. */
status = s_UsbDeviceStandardRequest[deviceSetup->bRequest](classHandle, deviceSetup, &buffer, &length);
}
}
#if ((defined(USB_DEVICE_CONFIG_EHCI) && (USB_DEVICE_CONFIG_EHCI > 0U)) || \
(defined(USB_DEVICE_CONFIG_LPCIP3511HS) && (USB_DEVICE_CONFIG_LPCIP3511HS > 0U))) && \
(defined(USB_DEVICE_CONFIG_USB20_TEST_MODE) && (USB_DEVICE_CONFIG_USB20_TEST_MODE > 0U))
else if ((uint8_t)kUSB_DeviceStateTestMode == state)
{
uint8_t portTestControl = (uint8_t)(deviceSetup->wIndex >> 8);
/* Set the controller.into test mode. */
status = USB_DeviceSetStatus(handle, kUSB_DeviceStatusTestMode, &portTestControl);
}
#endif
else if ((0U != message->length) && (0U != deviceSetup->wLength) &&
((deviceSetup->bmRequestType & USB_REQUEST_TYPE_DIR_MASK) == USB_REQUEST_TYPE_DIR_OUT))
{
if (((deviceSetup->bmRequestType & USB_REQUEST_TYPE_TYPE_MASK) == USB_REQUEST_TYPE_TYPE_CLASS))
{
/* Data received in OUT phase, and notify the class driver. */
usb_device_control_request_struct_t controlRequest;
controlRequest.buffer = message->buffer;
controlRequest.isSetup = 0U;
controlRequest.setup = deviceSetup;
controlRequest.length = message->length;
status = USB_DeviceClassEvent(handle, kUSB_DeviceClassEventClassRequest, &controlRequest);
}
else if (((deviceSetup->bmRequestType & USB_REQUEST_TYPE_TYPE_MASK) == USB_REQUEST_TYPE_TYPE_VENDOR))
{
/* Data received in OUT phase, and notify the application. */
usb_device_control_request_struct_t controlRequest;
controlRequest.buffer = message->buffer;
controlRequest.isSetup = 0U;
controlRequest.setup = deviceSetup;
controlRequest.length = message->length;
status = USB_DeviceClassCallback(handle, (uint32_t)kUSB_DeviceEventVendorRequest, &controlRequest);
}
else
{
/*no action*/
}
/* Send the response to the host. */
status = USB_DeviceControlCallbackFeedback(handle, deviceSetup, status, kUSB_DeviceControlPipeDataStage,
&buffer, &length);
}
else
{
/*no action*/
}
return status;
}
/*!
* @brief Control endpoint initialization function.
*
* This callback function is used to initialize the control pipes.
*
* @param handle The device handle. It equals the value returned from USB_DeviceInit.
* @param param The up layer handle.
*
* @return A USB error code or kStatus_USB_Success.
*/
usb_status_t USB_DeviceControlPipeInit(usb_device_handle handle, void *param)
{
usb_device_endpoint_init_struct_t epInitStruct;
usb_device_endpoint_callback_struct_t epCallback;
usb_status_t status;
epCallback.callbackFn = USB_DeviceControlCallback;
epCallback.callbackParam = param;
epInitStruct.zlt = 1U;
epInitStruct.transferType = USB_ENDPOINT_CONTROL;
epInitStruct.interval = 0;
epInitStruct.endpointAddress = USB_CONTROL_ENDPOINT | (USB_IN << USB_DESCRIPTOR_ENDPOINT_ADDRESS_DIRECTION_SHIFT);
epInitStruct.maxPacketSize = USB_CONTROL_MAX_PACKET_SIZE;
/* Initialize the control IN pipe */
status = USB_DeviceInitEndpoint(handle, &epInitStruct, &epCallback);
if (kStatus_USB_Success != status)
{
return status;
}
epInitStruct.endpointAddress = USB_CONTROL_ENDPOINT | (USB_OUT << USB_DESCRIPTOR_ENDPOINT_ADDRESS_DIRECTION_SHIFT);
/* Initialize the control OUT pipe */
status = USB_DeviceInitEndpoint(handle, &epInitStruct, &epCallback);
if (kStatus_USB_Success != status)
{
#if (defined(USB_DEVICE_CONFIG_RETURN_VALUE_CHECK) && (USB_DEVICE_CONFIG_RETURN_VALUE_CHECK > 0U))
if (kStatus_USB_Success !=
USB_DeviceDeinitEndpoint(
handle, USB_CONTROL_ENDPOINT | (USB_IN << USB_DESCRIPTOR_ENDPOINT_ADDRESS_DIRECTION_SHIFT)))
{
return kStatus_USB_Error;
}
#else
(void)USB_DeviceDeinitEndpoint(
handle, USB_CONTROL_ENDPOINT | (USB_IN << USB_DESCRIPTOR_ENDPOINT_ADDRESS_DIRECTION_SHIFT));
#endif
return status;
}
return kStatus_USB_Success;
}
#endif /* USB_DEVICE_CONFIG_NUM */
Reference in New Issue View Git Blame Copy Permalink