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udc.c
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udc.c
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/**
* \file
*
* \brief USB Device Controller (UDC)
*
* Copyright (c) 2009 - 2014 Atmel Corporation. All rights reserved.
*
* \asf_license_start
*
* \page License
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions are met:
*
* 1. Redistributions of source code must retain the above copyright notice,
* this list of conditions and the following disclaimer.
*
* 2. Redistributions in binary form must reproduce the above copyright notice,
* this list of conditions and the following disclaimer in the documentation
* and/or other materials provided with the distribution.
*
* 3. The name of Atmel may not be used to endorse or promote products derived
* from this software without specific prior written permission.
*
* 4. This software may only be redistributed and used in connection with an
* Atmel microcontroller product.
*
* THIS SOFTWARE IS PROVIDED BY ATMEL "AS IS" AND ANY EXPRESS OR IMPLIED
* WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF
* MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NON-INFRINGEMENT ARE
* EXPRESSLY AND SPECIFICALLY DISCLAIMED. IN NO EVENT SHALL ATMEL BE LIABLE FOR
* ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
* DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
* OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
* HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT,
* STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN
* ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
* POSSIBILITY OF SUCH DAMAGE.
*
* \asf_license_stop
*
*/
#include "conf_usb.h"
#include "usb_protocol.h"
#include "udd.h"
#include "udc_desc.h"
#include "udi.h"
#include "udc.h"
#include "naeusb_os_desc.h"
#if NAEUSB_MPSSE_SUPPORT == 1
#include "naeusb_mpsse.h"
#endif
/**
* \ingroup udc_group
* \defgroup udc_group_interne Implementation of UDC
*
* Internal implementation
* @{
*/
//! \name Internal variables to manage the USB device
//! @{
//! Device status state (see enum usb_device_status in usb_protocol.h)
static le16_t udc_device_status;
//! Device Configuration number selected by the USB host
static uint8_t udc_num_configuration = 0;
//! Pointer on the selected speed device configuration
static udc_config_speed_t UDC_DESC_STORAGE *udc_ptr_conf;
//! Pointer on interface descriptor used by SETUP request.
static usb_iface_desc_t UDC_DESC_STORAGE *udc_ptr_iface;
//! @}
//! \name Internal structure to store the USB device main strings
//! @{
/**
* \brief Language ID of USB device (US ID by default)
*/
COMPILER_WORD_ALIGNED
static UDC_DESC_STORAGE usb_str_lgid_desc_t udc_string_desc_languageid = {
.desc.bLength = sizeof(usb_str_lgid_desc_t),
.desc.bDescriptorType = USB_DT_STRING,
.string = {LE16(USB_LANGID_EN_US)}
};
/**
* \brief USB device manufacture name storage
* String is allocated only if USB_DEVICE_MANUFACTURE_NAME is declared
* by usb application configuration
*/
#ifdef USB_DEVICE_MANUFACTURE_NAME
static uint8_t udc_string_manufacturer_name[] = USB_DEVICE_MANUFACTURE_NAME;
# define USB_DEVICE_MANUFACTURE_NAME_SIZE \
(sizeof(udc_string_manufacturer_name)-1)
#else
# define USB_DEVICE_MANUFACTURE_NAME_SIZE 0
#endif
/**
* \brief USB device product name storage
* String is allocated only if USB_DEVICE_PRODUCT_NAME is declared
* by usb application configuration
*/
#ifdef USB_DEVICE_PRODUCT_NAME
static uint8_t udc_string_product_name[] = USB_DEVICE_PRODUCT_NAME;
# define USB_DEVICE_PRODUCT_NAME_SIZE (sizeof(udc_string_product_name)-1)
#else
# define USB_DEVICE_PRODUCT_NAME_SIZE 0
#endif
/**
* \brief Get USB device serial number
*
* Use the define USB_DEVICE_SERIAL_NAME to set static serial number.
*
* For dynamic serial number set the define USB_DEVICE_GET_SERIAL_NAME_POINTER
* to a suitable pointer. This will also require the serial number length
* define USB_DEVICE_GET_SERIAL_NAME_LENGTH.
*/
#if defined USB_DEVICE_GET_SERIAL_NAME_POINTER
static const uint8_t *udc_get_string_serial_name(void)
{
return (const uint8_t *)USB_DEVICE_GET_SERIAL_NAME_POINTER;
}
# define USB_DEVICE_SERIAL_NAME_SIZE \
USB_DEVICE_GET_SERIAL_NAME_LENGTH
#elif defined USB_DEVICE_SERIAL_NAME
static const uint8_t *udc_get_string_serial_name(void)
{
return (const uint8_t *)USB_DEVICE_SERIAL_NAME;
}
# define USB_DEVICE_SERIAL_NAME_SIZE \
(sizeof(USB_DEVICE_SERIAL_NAME)-1)
#else
# define USB_DEVICE_SERIAL_NAME_SIZE 0
#endif
/**
* \brief USB device string descriptor
* Structure used to transfer ASCII strings to USB String descriptor structure.
*/
struct udc_string_desc_t {
usb_str_desc_t header;
le16_t string[Max(Max(USB_DEVICE_MANUFACTURE_NAME_SIZE, \
USB_DEVICE_PRODUCT_NAME_SIZE), USB_DEVICE_SERIAL_NAME_SIZE)];
};
COMPILER_WORD_ALIGNED
static UDC_DESC_STORAGE struct udc_string_desc_t udc_string_desc = {
.header.bDescriptorType = USB_DT_STRING
};
//! @}
usb_iface_desc_t UDC_DESC_STORAGE *udc_get_interface_desc(void)
{
return udc_ptr_iface;
}
/**
* \brief Returns a value to check the end of USB Configuration descriptor
*
* \return address after the last byte of USB Configuration descriptor
*/
static usb_conf_desc_t UDC_DESC_STORAGE *udc_get_eof_conf(void)
{
return (UDC_DESC_STORAGE usb_conf_desc_t *) ((uint8_t *)
udc_ptr_conf->desc +
le16_to_cpu(udc_ptr_conf->desc->wTotalLength));
}
#if (0!=USB_DEVICE_MAX_EP)
/**
* \brief Search specific descriptor in global interface descriptor
*
* \param desc Address of interface descriptor
* or previous specific descriptor found
* \param desc_id Descriptor ID to search
*
* \return address of specific descriptor found
* \return NULL if it is the end of global interface descriptor
*/
static usb_conf_desc_t UDC_DESC_STORAGE *udc_next_desc_in_iface(usb_conf_desc_t
UDC_DESC_STORAGE * desc, uint8_t desc_id)
{
usb_conf_desc_t UDC_DESC_STORAGE *ptr_eof_desc;
ptr_eof_desc = udc_get_eof_conf();
// Go to next descriptor
desc = (UDC_DESC_STORAGE usb_conf_desc_t *) ((uint8_t *) desc +
desc->bLength);
// Check the end of configuration descriptor
while (ptr_eof_desc > desc) {
// If new interface descriptor is found,
// then it is the end of the current global interface descriptor
if (USB_DT_INTERFACE == desc->bDescriptorType) {
break; // End of global interface descriptor
}
if (desc_id == desc->bDescriptorType) {
return desc; // Specific descriptor found
}
// Go to next descriptor
desc = (UDC_DESC_STORAGE usb_conf_desc_t *) ((uint8_t *) desc +
desc->bLength);
}
return NULL; // No specific descriptor found
}
#endif
/**
* \brief Search an interface descriptor
* This routine updates the internal pointer udc_ptr_iface.
*
* \param iface_num Interface number to find in Configuration Descriptor
* \param setting_num Setting number of interface to find
*
* \return 1 if found or 0 if not found
*/
static bool udc_update_iface_desc(uint8_t iface_num, uint8_t setting_num)
{
usb_conf_desc_t UDC_DESC_STORAGE *ptr_end_desc;
if (0 == udc_num_configuration) {
return false;
}
if (iface_num >= udc_ptr_conf->desc->bNumInterfaces) {
return false;
}
// Start at the beginning of configuration descriptor
udc_ptr_iface = (UDC_DESC_STORAGE usb_iface_desc_t *)
udc_ptr_conf->desc;
// Check the end of configuration descriptor
ptr_end_desc = udc_get_eof_conf();
while (ptr_end_desc >
(UDC_DESC_STORAGE usb_conf_desc_t *) udc_ptr_iface) {
if (USB_DT_INTERFACE == udc_ptr_iface->bDescriptorType) {
// A interface descriptor is found
// Check interface and alternate setting number
if ((iface_num == udc_ptr_iface->bInterfaceNumber) &&
(setting_num ==
udc_ptr_iface->bAlternateSetting)) {
return true; // Interface found
}
}
// Go to next descriptor
udc_ptr_iface = (UDC_DESC_STORAGE usb_iface_desc_t *) (
(uint8_t *) udc_ptr_iface +
udc_ptr_iface->bLength);
}
return false; // Interface not found
}
/**
* \brief Disables an usb device interface (UDI)
* This routine call the UDI corresponding to interface number
*
* \param iface_num Interface number to disable
*
* \return 1 if it is done or 0 if interface is not found
*/
static bool udc_iface_disable(uint8_t iface_num)
{
udi_api_t UDC_DESC_STORAGE *udi_api;
// Select first alternate setting of the interface
// to update udc_ptr_iface before call iface->getsetting()
if (!udc_update_iface_desc(iface_num, 0)) {
return false;
}
// Select the interface with the current alternate setting
udi_api = udc_ptr_conf->udi_apis[iface_num];
#if (0!=USB_DEVICE_MAX_EP)
if (!udc_update_iface_desc(iface_num, udi_api->getsetting())) {
return false;
}
// Start at the beginning of interface descriptor
{
usb_ep_desc_t UDC_DESC_STORAGE *ep_desc;
ep_desc = (UDC_DESC_STORAGE usb_ep_desc_t *) udc_ptr_iface;
while (1) {
// Search Endpoint descriptor included in global interface descriptor
ep_desc = (UDC_DESC_STORAGE usb_ep_desc_t *)
udc_next_desc_in_iface((UDC_DESC_STORAGE
usb_conf_desc_t *)
ep_desc, USB_DT_ENDPOINT);
if (NULL == ep_desc) {
break;
}
// Free the endpoint used by the interface
udd_ep_free(ep_desc->bEndpointAddress);
}
}
#endif
// Disable interface
udi_api->disable();
return true;
}
/**
* \brief Enables an usb device interface (UDI)
* This routine calls the UDI corresponding
* to the interface and setting number.
*
* \param iface_num Interface number to enable
* \param setting_num Setting number to enable
*
* \return 1 if it is done or 0 if interface is not found
*/
static bool udc_iface_enable(uint8_t iface_num, uint8_t setting_num)
{
// Select the interface descriptor
if (!udc_update_iface_desc(iface_num, setting_num)) {
return false;
}
#if (0!=USB_DEVICE_MAX_EP)
usb_ep_desc_t UDC_DESC_STORAGE *ep_desc;
// Start at the beginning of the global interface descriptor
ep_desc = (UDC_DESC_STORAGE usb_ep_desc_t *) udc_ptr_iface;
while (1) {
// Search Endpoint descriptor included in the global interface descriptor
ep_desc = (UDC_DESC_STORAGE usb_ep_desc_t *)
udc_next_desc_in_iface((UDC_DESC_STORAGE
usb_conf_desc_t *) ep_desc,
USB_DT_ENDPOINT);
if (NULL == ep_desc)
break;
// Alloc the endpoint used by the interface
if (!udd_ep_alloc(ep_desc->bEndpointAddress,
ep_desc->bmAttributes,
le16_to_cpu
(ep_desc->wMaxPacketSize))) {
return false;
}
}
#endif
// Enable the interface
return udc_ptr_conf->udi_apis[iface_num]->enable();
}
/*! \brief Start the USB Device stack
*/
void udc_start(void)
{
udd_enable();
}
/*! \brief Stop the USB Device stack
*/
void udc_stop(void)
{
udd_disable();
udc_reset();
}
/**
* \brief Reset the current configuration of the USB device,
* This routines can be called by UDD when a RESET on the USB line occurs.
*/
void udc_reset(void)
{
uint8_t iface_num;
if (udc_num_configuration) {
for (iface_num = 0;
iface_num < udc_ptr_conf->desc->bNumInterfaces;
iface_num++) {
udc_iface_disable(iface_num);
}
}
udc_num_configuration = 0;
#if (USB_CONFIG_ATTR_REMOTE_WAKEUP \
== (USB_DEVICE_ATTR & USB_CONFIG_ATTR_REMOTE_WAKEUP))
if (CPU_TO_LE16(USB_DEV_STATUS_REMOTEWAKEUP) & udc_device_status) {
// Remote wakeup is enabled then disable it
UDC_REMOTEWAKEUP_DISABLE();
}
#endif
udc_device_status =
#if (USB_DEVICE_ATTR & USB_CONFIG_ATTR_SELF_POWERED)
CPU_TO_LE16(USB_DEV_STATUS_SELF_POWERED);
#else
CPU_TO_LE16(USB_DEV_STATUS_BUS_POWERED);
#endif
}
void udc_sof_notify(void)
{
uint8_t iface_num;
if (udc_num_configuration) {
for (iface_num = 0;
iface_num < udc_ptr_conf->desc->bNumInterfaces;
iface_num++) {
if (udc_ptr_conf->udi_apis[iface_num]->sof_notify != NULL) {
udc_ptr_conf->udi_apis[iface_num]->sof_notify();
}
}
}
}
/**
* \brief Standard device request to get device status
*
* \return true if success
*/
static bool udc_req_std_dev_get_status(void)
{
if (udd_g_ctrlreq.req.wLength != sizeof(udc_device_status)) {
return false;
}
udd_set_setup_payload( (uint8_t *) & udc_device_status,
sizeof(udc_device_status));
return true;
}
#if (0!=USB_DEVICE_MAX_EP)
/**
* \brief Standard endpoint request to get endpoint status
*
* \return true if success
*/
static bool udc_req_std_ep_get_status(void)
{
static le16_t udc_ep_status;
if (udd_g_ctrlreq.req.wLength != sizeof(udc_ep_status)) {
return false;
}
udc_ep_status = udd_ep_is_halted(udd_g_ctrlreq.req.
wIndex & 0xFF) ? CPU_TO_LE16(USB_EP_STATUS_HALTED) : 0;
udd_set_setup_payload( (uint8_t *) & udc_ep_status,
sizeof(udc_ep_status));
return true;
}
#endif
/**
* \brief Standard device request to change device status
*
* \return true if success
*/
static bool udc_req_std_dev_clear_feature(void)
{
if (udd_g_ctrlreq.req.wLength) {
return false;
}
if (udd_g_ctrlreq.req.wValue == USB_DEV_FEATURE_REMOTE_WAKEUP) {
udc_device_status &= CPU_TO_LE16(~(uint32_t)USB_DEV_STATUS_REMOTEWAKEUP);
#if (USB_CONFIG_ATTR_REMOTE_WAKEUP \
== (USB_DEVICE_ATTR & USB_CONFIG_ATTR_REMOTE_WAKEUP))
UDC_REMOTEWAKEUP_DISABLE();
#endif
return true;
}
return false;
}
#if (0!=USB_DEVICE_MAX_EP)
/**
* \brief Standard endpoint request to clear endpoint feature
*
* \return true if success
*/
static bool udc_req_std_ep_clear_feature(void)
{
if (udd_g_ctrlreq.req.wLength) {
return false;
}
if (udd_g_ctrlreq.req.wValue == USB_EP_FEATURE_HALT) {
return udd_ep_clear_halt(udd_g_ctrlreq.req.wIndex & 0xFF);
}
return false;
}
#endif
/**
* \brief Standard device request to set a feature
*
* \return true if success
*/
static bool udc_req_std_dev_set_feature(void)
{
if (udd_g_ctrlreq.req.wLength) {
return false;
}
switch (udd_g_ctrlreq.req.wValue) {
case USB_DEV_FEATURE_REMOTE_WAKEUP:
#if (USB_CONFIG_ATTR_REMOTE_WAKEUP \
== (USB_DEVICE_ATTR & USB_CONFIG_ATTR_REMOTE_WAKEUP))
udc_device_status |= CPU_TO_LE16(USB_DEV_STATUS_REMOTEWAKEUP);
UDC_REMOTEWAKEUP_ENABLE();
return true;
#else
return false;
#endif
#ifdef USB_DEVICE_HS_SUPPORT
case USB_DEV_FEATURE_TEST_MODE:
if (!udd_is_high_speed()) {
break;
}
if (udd_g_ctrlreq.req.wIndex & 0xff) {
break;
}
// Unconfigure the device, terminating all ongoing requests
udc_reset();
switch ((udd_g_ctrlreq.req.wIndex >> 8) & 0xFF) {
case USB_DEV_TEST_MODE_J:
udd_g_ctrlreq.callback = udd_test_mode_j;
return true;
case USB_DEV_TEST_MODE_K:
udd_g_ctrlreq.callback = udd_test_mode_k;
return true;
case USB_DEV_TEST_MODE_SE0_NAK:
udd_g_ctrlreq.callback = udd_test_mode_se0_nak;
return true;
case USB_DEV_TEST_MODE_PACKET:
udd_g_ctrlreq.callback = udd_test_mode_packet;
return true;
case USB_DEV_TEST_MODE_FORCE_ENABLE: // Only for downstream facing hub ports
default:
break;
}
break;
#endif
default:
break;
}
return false;
}
/**
* \brief Standard endpoint request to halt an endpoint
*
* \return true if success
*/
#if (0!=USB_DEVICE_MAX_EP)
static bool udc_req_std_ep_set_feature(void)
{
if (udd_g_ctrlreq.req.wLength) {
return false;
}
if (udd_g_ctrlreq.req.wValue == USB_EP_FEATURE_HALT) {
udd_ep_abort(udd_g_ctrlreq.req.wIndex & 0xFF);
return udd_ep_set_halt(udd_g_ctrlreq.req.wIndex & 0xFF);
}
return false;
}
#endif
/**
* \brief Change the address of device
* Callback called at the end of request set address
*/
static void udc_valid_address(void)
{
udd_set_address(udd_g_ctrlreq.req.wValue & 0x7F);
}
/**
* \brief Standard device request to set device address
*
* \return true if success
*/
static bool udc_req_std_dev_set_address(void)
{
if (udd_g_ctrlreq.req.wLength) {
return false;
}
// The address must be changed at the end of setup request after the handshake
// then we use a callback to change address
udd_g_ctrlreq.callback = udc_valid_address;
return true;
}
/**
* \brief Standard device request to get device string descriptor
*
* \return true if success
*/
static bool udc_req_std_dev_get_str_desc(void)
{
uint8_t i;
const uint8_t *str;
uint8_t str_length = 0;
// Link payload pointer to the string corresponding at request
switch (udd_g_ctrlreq.req.wValue & 0xff) {
case 0:
udd_set_setup_payload((uint8_t *) &udc_string_desc_languageid,
sizeof(udc_string_desc_languageid));
break;
#ifdef USB_DEVICE_MANUFACTURE_NAME
case 1:
str_length = USB_DEVICE_MANUFACTURE_NAME_SIZE;
str = udc_string_manufacturer_name;
break;
#endif
#ifdef USB_DEVICE_PRODUCT_NAME
case 2:
str_length = USB_DEVICE_PRODUCT_NAME_SIZE;
str = udc_string_product_name;
break;
#endif
#if defined USB_DEVICE_SERIAL_NAME || defined USB_DEVICE_GET_SERIAL_NAME_POINTER
case 3:
str_length = USB_DEVICE_SERIAL_NAME_SIZE;
str = udc_get_string_serial_name();
break;
#endif
default:
#ifdef UDC_GET_EXTRA_STRING
if (UDC_GET_EXTRA_STRING()) {
break;
}
#endif
return false;
}
if (str_length) {
for(i = 0; i < str_length; i++) {
udc_string_desc.string[i] = cpu_to_le16((le16_t)str[i]);
}
udc_string_desc.header.bLength = 2 + (str_length) * 2;
udd_set_setup_payload(
(uint8_t *) &udc_string_desc,
udc_string_desc.header.bLength);
}
return true;
}
static bool udc_req_std_dev_get_descriptor(void)
{
uint8_t conf_num;
conf_num = udd_g_ctrlreq.req.wValue & 0xff;
// Check descriptor ID
switch ((uint8_t) (udd_g_ctrlreq.req.wValue >> 8)) {
case USB_DT_DEVICE:
// Device descriptor requested
#ifdef USB_DEVICE_HS_SUPPORT
if (!udd_is_high_speed()) {
//(udc_config.confdev_hs)->bcdUSB = 0x0210;
udd_set_setup_payload(
(uint8_t *) udc_config.confdev_hs,
udc_config.confdev_hs->bLength);
} else
#endif
{
// Windows will only ask for BOS if we set this to USB 2.1
(udc_config.confdev_lsfs)->bcdUSB = 0x0210;
udd_set_setup_payload(
(uint8_t *) udc_config.confdev_lsfs,
udc_config.confdev_lsfs->bLength);
}
break;
case USB_DT_CONFIGURATION:
// Configuration descriptor requested
#ifdef USB_DEVICE_HS_SUPPORT
if (udd_is_high_speed()) {
// HS descriptor
if (conf_num >= udc_config.confdev_hs->
bNumConfigurations) {
return false;
}
udd_set_setup_payload(
(uint8_t *)udc_config.conf_hs[conf_num].desc,
le16_to_cpu(udc_config.conf_hs[conf_num].desc->wTotalLength));
} else
#endif
{
// FS descriptor
if (conf_num >= udc_config.confdev_lsfs->
bNumConfigurations) {
return false;
}
udd_set_setup_payload(
(uint8_t *)udc_config.conf_lsfs[conf_num].desc,
le16_to_cpu(udc_config.conf_lsfs[conf_num].desc->wTotalLength));
}
((usb_conf_desc_t *) udd_g_ctrlreq.payload)->bDescriptorType =
USB_DT_CONFIGURATION;
break;
#ifdef USB_DEVICE_HS_SUPPORT
case USB_DT_DEVICE_QUALIFIER:
// Device qualifier descriptor requested
udd_set_setup_payload( (uint8_t *) udc_config.qualifier,
udc_config.qualifier->bLength);
break;
case USB_DT_OTHER_SPEED_CONFIGURATION:
// Other configuration descriptor requested
if (!udd_is_high_speed()) {
// HS descriptor
if (conf_num >= udc_config.confdev_hs->
bNumConfigurations) {
return false;
}
udd_set_setup_payload(
(uint8_t *)udc_config.conf_hs[conf_num].desc,
le16_to_cpu(udc_config.conf_hs[conf_num].desc->wTotalLength));
} else {
// FS descriptor
if (conf_num >= udc_config.confdev_lsfs->
bNumConfigurations) {
return false;
}
udd_set_setup_payload(
(uint8_t *)udc_config.conf_lsfs[conf_num].desc,
le16_to_cpu(udc_config.conf_lsfs[conf_num].desc->wTotalLength));
}
((usb_conf_desc_t *) udd_g_ctrlreq.payload)->bDescriptorType =
USB_DT_OTHER_SPEED_CONFIGURATION;
break;
#endif
case USB_DT_BOS: //bos descriptor
// handle MPSSE
udd_set_setup_payload( (uint8_t *) &MS_BOS_PACKET,
sizeof(struct MS_BOS_DESCRIPTOR));
break;
case USB_DT_STRING:
// String descriptor requested
if (!udc_req_std_dev_get_str_desc()) {
return false;
}
break;
default:
// Unknown descriptor requested
return false;
}
// if the descriptor is larger than length requested, then reduce it
if (udd_g_ctrlreq.req.wLength < udd_g_ctrlreq.payload_size) {
udd_g_ctrlreq.payload_size = udd_g_ctrlreq.req.wLength;
}
return true;
}
/**
* \brief Standard device request to get configuration number
*
* \return true if success
*/
static bool udc_req_std_dev_get_configuration(void)
{
if (udd_g_ctrlreq.req.wLength != 1) {
return false;
}
udd_set_setup_payload(&udc_num_configuration,1);
return true;
}
/**
* \brief Standard device request to enable a configuration
*
* \return true if success
*/
static bool udc_req_std_dev_set_configuration(void)
{
uint8_t iface_num;
// Check request length
if (udd_g_ctrlreq.req.wLength) {
return false;
}
// Authorize configuration only if the address is valid
if (!udd_getaddress()) {
return false;
}
// Check the configuration number requested
#ifdef USB_DEVICE_HS_SUPPORT
if (udd_is_high_speed()) {
// HS descriptor
if ((udd_g_ctrlreq.req.wValue & 0xFF) >
udc_config.confdev_hs->bNumConfigurations) {
return false;
}
} else
#endif
{
// FS descriptor
if ((udd_g_ctrlreq.req.wValue & 0xFF) >
udc_config.confdev_lsfs->bNumConfigurations) {
return false;
}
}
// Reset current configuration
udc_reset();
// Enable new configuration
udc_num_configuration = udd_g_ctrlreq.req.wValue & 0xFF;
if (udc_num_configuration == 0) {
return true; // Default empty configuration requested
}
// Update pointer of the configuration descriptor
#ifdef USB_DEVICE_HS_SUPPORT
if (udd_is_high_speed()) {
// HS descriptor
udc_ptr_conf = &udc_config.conf_hs[udc_num_configuration - 1];
} else
#endif
{
// FS descriptor
udc_ptr_conf = &udc_config.conf_lsfs[udc_num_configuration - 1];
}
// Enable all interfaces of the selected configuration
for (iface_num = 0; iface_num < udc_ptr_conf->desc->bNumInterfaces;
iface_num++) {
if (!udc_iface_enable(iface_num, 0)) {
return false;
}
}
return true;
}
/**
* \brief Standard interface request
* to get the alternate setting number of an interface
*
* \return true if success
*/
static bool udc_req_std_iface_get_setting(void)
{
static uint8_t udc_iface_setting;
uint8_t iface_num;
udi_api_t UDC_DESC_STORAGE *udi_api;
if (udd_g_ctrlreq.req.wLength != 1) {
return false; // Error in request
}
if (!udc_num_configuration) {
return false; // The device is not is configured state yet
}
// Check the interface number included in the request
iface_num = udd_g_ctrlreq.req.wIndex & 0xFF;
if (iface_num >= udc_ptr_conf->desc->bNumInterfaces) {
return false;
}
// Select first alternate setting of the interface to update udc_ptr_iface
// before call iface->getsetting()
if (!udc_update_iface_desc(iface_num, 0)) {
return false;
}
// Get alternate setting from UDI
udi_api = udc_ptr_conf->udi_apis[iface_num];
udc_iface_setting = udi_api->getsetting();
// Link value to payload pointer of request
udd_set_setup_payload(&udc_iface_setting,1);
return true;
}
/**
* \brief Standard interface request
* to set an alternate setting of an interface
*
* \return true if success
*/
static bool udc_req_std_iface_set_setting(void)
{
uint8_t iface_num, setting_num;
if (udd_g_ctrlreq.req.wLength) {
return false; // Error in request
}
if (!udc_num_configuration) {
return false; // The device is not is configured state yet
}
iface_num = udd_g_ctrlreq.req.wIndex & 0xFF;
setting_num = udd_g_ctrlreq.req.wValue & 0xFF;
// Disable current setting
if (!udc_iface_disable(iface_num)) {
return false;
}
// Enable new setting
return udc_iface_enable(iface_num, setting_num);
}
/**
* \brief Main routine to manage the standard USB SETUP request
*
* \return true if the request is supported
*/
static bool udc_reqstd(void)
{
if (Udd_setup_is_in()) {
// GET Standard Requests
if (udd_g_ctrlreq.req.wLength == 0) {
return false; // Error for USB host
}
if (USB_REQ_RECIP_DEVICE == Udd_setup_recipient()) {
// Standard Get Device request
switch (udd_g_ctrlreq.req.bRequest) {
case USB_REQ_GET_STATUS:
return udc_req_std_dev_get_status();
case USB_REQ_GET_DESCRIPTOR:
return udc_req_std_dev_get_descriptor();
case USB_REQ_GET_CONFIGURATION:
return udc_req_std_dev_get_configuration();
default:
break;
}
}
if (USB_REQ_RECIP_INTERFACE == Udd_setup_recipient()) {
// Standard Get Interface request
switch (udd_g_ctrlreq.req.bRequest) {
case USB_REQ_GET_INTERFACE:
return udc_req_std_iface_get_setting();
default:
break;
}
}
#if (0!=USB_DEVICE_MAX_EP)
if (USB_REQ_RECIP_ENDPOINT == Udd_setup_recipient()) {
// Standard Get Endpoint request
switch (udd_g_ctrlreq.req.bRequest) {
case USB_REQ_GET_STATUS:
return udc_req_std_ep_get_status();
default:
break;
}
}
#endif
} else {
// SET Standard Requests
if (USB_REQ_RECIP_DEVICE == Udd_setup_recipient()) {
// Standard Set Device request
switch (udd_g_ctrlreq.req.bRequest) {
case USB_REQ_SET_ADDRESS:
return udc_req_std_dev_set_address();
case USB_REQ_CLEAR_FEATURE:
return udc_req_std_dev_clear_feature();
case USB_REQ_SET_FEATURE:
return udc_req_std_dev_set_feature();
case USB_REQ_SET_CONFIGURATION:
return udc_req_std_dev_set_configuration();
case USB_REQ_SET_DESCRIPTOR:
/* Not supported (defined as optional by the USB 2.0 spec) */
break;
default:
break;
}
}
if (USB_REQ_RECIP_INTERFACE == Udd_setup_recipient()) {
// Standard Set Interface request
switch (udd_g_ctrlreq.req.bRequest) {
case USB_REQ_SET_INTERFACE:
return udc_req_std_iface_set_setting();
default:
break;
}
}
#if (0!=USB_DEVICE_MAX_EP)
if (USB_REQ_RECIP_ENDPOINT == Udd_setup_recipient()) {