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mirror of https://github.com/trezor/trezor-firmware.git synced 2024-11-22 15:38:11 +00:00

trezorhal: WIP usb rewrite

This commit is contained in:
Jan Pochyla 2017-03-24 14:19:24 +01:00 committed by Pavol Rusnak
parent 17ff61459d
commit 466285a21c
2 changed files with 616 additions and 58 deletions

View File

@ -2,41 +2,464 @@
#include "usbd_core.h"
#include "usbd_desc.h"
#include "usbd_cdc_msc_hid.h"
#include "usbd_cdc_interface.h"
#include "usbd_hid_interface.h"
USBD_HandleTypeDef hUSBDDevice;
#define USBD_MAX_NUM_INTERFACES (3)
#define USB_MAX_CONFIG_DESC_SIZE (128)
#define USB_MAX_STR_DESC_SIZE (256)
#define USB_DESC_TYPE_HID (0x21)
#define USB_DESC_TYPE_REPORT (0x22)
extern PCD_HandleTypeDef pcd_fs_handle;
extern PCD_HandleTypeDef pcd_hs_handle;
int usb_init(void) {
const uint16_t vid = 0x1209;
const uint16_t pid = 0x53C1;
static USBD_HandleTypeDef usb_dev_handle;
USBD_HID_ModeInfoTypeDef hid_info = {
.subclass = 0,
.protocol = 0,
.max_packet_len = 64,
.polling_interval = 1,
.report_desc = (const uint8_t*)"\x06\x00\xff\x09\x01\xa1\x01\x09\x20\x15\x00\x26\xff\x00\x75\x08\x95\x40\x81\x02\x09\x21\x15\x00\x26\xff\x00\x75\x08\x95\x40\x91\x02\xc0",
.report_desc_len = 34,
};
static usb_device_descriptor_t usb_dev_desc;
static uint8_t usb_config_buf[USB_MAX_CONFIG_DESC_SIZE];
static uint8_t usb_str_buf[USB_MAX_STR_DESC_SIZE];
static const usb_string_descriptor_t usb_langid_str_desc = {
.bLength = USB_LEN_LANGID_STR_DESC,
.bDescriptorType = USB_DESC_TYPE_STRING,
.wData = USB_LANGID_ENGLISH_US,
};
static usb_config_descriptor_t *usb_config_desc = (usb_config_descriptor_t *)(usb_config_buf);
static usb_interface_descriptor_t *usb_next_iface_desc;
static usb_string_table_t usb_str_table;
static usb_iface_t usb_ifaces[USBD_MAX_NUM_INTERFACES];
USBD_SetVIDPIDRelease(vid, pid, 0x0200, 0);
if (USBD_SelectMode(USBD_MODE_CDC_HID, &hid_info) != 0) {
return 1;
}
USBD_Init(&hUSBDDevice, (USBD_DescriptorsTypeDef*)&USBD_Descriptors, 0); // 0 == full speed
USBD_RegisterClass(&hUSBDDevice, &USBD_CDC_MSC_HID);
USBD_CDC_RegisterInterface(&hUSBDDevice, (USBD_CDC_ItfTypeDef*)&USBD_CDC_fops);
USBD_HID_RegisterInterface(&hUSBDDevice, (USBD_HID_ItfTypeDef*)&USBD_HID_fops);
USBD_Start(&hUSBDDevice);
int usb_init(const usb_dev_info_t *dev_info) {
// Device descriptor
usb_dev_desc.bLength = USB_LEN_DEV_DESC;
usb_dev_desc.bDescriptorType = USB_DESC_TYPE_DEVICE;
usb_dev_desc.bcdUSB = 0x00ef;
usb_dev_desc.bDeviceClass = 0xef; // Composite Device Class
usb_dev_desc.bDeviceSubClass = 0x02; // Common Class
usb_dev_desc.bDeviceProtocol = 0x01; // Interface Association Descriptor
usb_dev_desc.bMaxPacketSize = USB_MAX_EP0_SIZE;
usb_dev_desc.idVendor = dev_info->vendor_id;
usb_dev_desc.idProduct = dev_info->product_id;
usb_dev_desc.bcdDevice = dev_info->release_num;
usb_dev_desc.iManufacturer = USBD_IDX_MFC_STR; // Index of manufacturer string
usb_dev_desc.iProduct = USBD_IDX_PRODUCT_STR; // Index of product string
usb_dev_desc.iSerialNumber = USBD_IDX_SERIAL_STR; // Index of serial number string
usb_dev_desc.bNumConfigurations = 0x01;
// Configuration descriptor
usb_config_desc->bLength = USB_LEN_CFG_DESC;
usb_config_desc->bDescriptorType = USB_DESC_TYPE_CONFIGURATION;
usb_config_desc->wTotalLength = USB_LEN_CFG_DESC;
usb_config_desc->bNumInterfaces = 0x00;
usb_config_desc->bConfigurationValue = 0x01; // Configuration value
usb_config_desc->iConfiguration = 0x00; // Index of string descriptor describing the configuration
usb_config_desc->bmAttributes = 0x80; // 0x80 = bus powered; 0xc0 = self powered
usb_config_desc->bMaxPower = 0xfa; // In units of 2mA
// Pointer to interface descriptor data, see: usb_desc_alloc_iface, usb_desc_add_iface
usb_next_iface_desc = (usb_interface_descriptor_t *)(usb_config_buf + usb_config_desc->wTotalLength);
// Reset the iface state map
usb_iface_list = {};
// String table
usb_str_table->manufacturer_str = dev_info->manufacturer_str;
usb_str_table->product_str = dev_info->product_str;
usb_str_table->serial_str = dev_info->serial_number_str;
usb_str_table->config_str = dev_info->configuration_str;
usb_str_table->interface_str = dev_info->interface_str;
USBD_Init(&usb_dev_handle, (USBD_DescriptorsTypeDef*)&usb_descriptors, 0); // 0 == full speed
USBD_RegisterClass(&usb_dev_handle, &usb_class);
return 0;
}
#if defined(USE_USB_FS)
int usb_start(void) {
return USBD_Start(&usb_dev_handle);
}
int usb_stop(void) {
return USBD_Stop(&usb_dev_handle);
}
static uint8_t *usb_get_dev_descriptor(USBD_SpeedTypeDef speed, uint16_t *length) {
*length = sizeof(usb_dev_desc);
return (uint8_t *)usb_dev_desc;
}
static uint8_t *usb_get_langid_str_descriptor(USBD_SpeedTypeDef speed, uint16_t *length) {
*length = sizeof(usb_langid_str_desc);
return (uint8_t *)usb_langid_str_desc;
}
static uint8_t *usb_get_manufacturer_str_descriptor(USBD_SpeedTypeDef speed, uint16_t *length) {
USBD_GetString(usb_str_table.manufacturer_str, usb_str_buf, length);
return usb_str_buf;
}
static uint8_t *usb_get_product_str_descriptor(USBD_SpeedTypeDef speed, uint16_t *length) {
USBD_GetString(usb_str_table.product_str, usb_str_buf, length);
return usb_str_buf;
}
static uint8_t *usb_get_serial_str_descriptor(USBD_SpeedTypeDef speed, uint16_t *length) {
USBD_GetString(usb_str_table.serial_str, usb_str_buf, length);
return usb_str_buf;
}
static uint8_t *usb_get_config_str_descriptor(USBD_SpeedTypeDef speed, uint16_t *length) {
USBD_GetString(usb_str_table.config_str, usb_str_buf, length);
return usb_str_buf;
}
static uint8_t *usb_get_interface_str_descriptor(USBD_SpeedTypeDef speed, uint16_t *length) {
USBD_GetString(usb_str_table.interface_str, usb_str_buf, length);
return usb_str_buf;
}
static const USBD_DescriptorsTypeDef usb_descriptors = {
.GetDeviceDescriptor = usb_get_dev_descriptor,
.GetLangIDStrDescriptor = usb_get_langid_str_descriptor,
.GetManufacturerStrDescriptor = usb_get_manufacturer_str_descriptor,
.GetProductStrDescriptor = usb_get_product_str_descriptor,
.GetSerialStrDescriptor = usb_get_serial_str_descriptor,
.GetConfigurationStrDescriptor = usb_get_config_str_descriptor,
.GetInterfaceStrDescriptor = usb_get_interface_str_descriptor,
};
static void *usb_desc_alloc_iface(size_t desc_len) {
if (usb_config_desc->wTotalLength + desc_len > USB_MAX_CONFIG_DESC_SIZE) {
return NULL; // Not enough space in the descriptor
}
if (usb_config_desc->bNumInterfaces + 1 >= USBD_MAX_NUM_INTERFACES)
return NULL; // Already using all the interfaces
}
return usb_next_iface_desc;
}
static void usb_desc_add_iface(size_t desc_len) {
usb_config_desc->bNumInterfaces++;
usb_config_desc->wTotalLength += desc_len;
usb_next_iface_desc = (usb_interface_descriptor_t *)(usb_config_buf + usb_config_desc->wTotalLength);
}
/* usb_hid_add adds and configures new USB HID interface according to
* configuration options passed in `info`. */
int usb_hid_add(const usb_hid_info_t *info) {
usb_hid_descriptor_block_t *d = usb_desc_alloc_iface(sizeof(*d));
if (!d) {
return 1; // Not enough space in the configuration descriptor
}
if ((info->iface_num < usb_config_desc->bNumInterfaces)
(info->iface_num >= USBD_MAX_NUM_INTERFACES) ||
((info->ep_in & 0x80) == 0) ||
((info->ep_out & 0x80) != 0)) {
return 1; // Invalid configuration values
}
// Interface descriptor
d->iface.bLength = USB_LEN_IF_DESC;
d->iface.bDescriptorType = USB_DESC_TYPE_INTERFACE;
d->iface.bInterfaceNumber = info->iface_num;
d->iface.bAlternateSetting = 0x00;
d->iface.bNumEndpoints = 0x02;
d->iface.bInterfaceClass = 0x03; // HID Class
d->iface.bInterfaceSubClass = info->subclass;
d->iface.nInterfaceProtocol = info->protocol;
d->iface.iInterface = 0x00; // Index of string descriptor describing the interface
// HID descriptor
d->hid.bLength = sizeof(usb_hid_descriptor_t);
d->hid.bDescriptorType = USB_DESC_TYPE_HID;
d->hid.bcdHID = 0x1101; // HID Class Spec release number
d->hid.bCountryCode = 0x00; // Hardware target country
d->hid.bNumDescriptors = 0x01; // Number of HID class descriptors to follow
d->hid.bReportDescriptorType = USB_DESC_TYPE_REPORT;
d->hid.wReportDescriptorLength = info->report_desc_len;
// IN endpoint (sending)
d->ep_in.bLength = USB_LEN_EP_DESC;
d->ep_in.bDescriptorType = USB_DESC_TYPE_ENDPOINT;
d->ep_in.bEndpointAddress = info->ep_in;
d->ep_in.bmAttributes = USBD_EP_TYPE_INTR;
d->ep_in.wMaxPacketSize = info->max_packet_len;
d->ep_in.bInterval = info->polling_interval;
// OUT endpoint (receiving)
d->ep_out.bLength = USB_LEN_EP_DESC;
d->ep_out.bDescriptorType = USB_DESC_TYPE_ENDPOINT;
d->ep_out.bEndpointAddress = info->ep_out;
d->ep_out.bmAttributes = USBD_EP_TYPE_INTR;
d->ep_out.wMaxPacketSize = info->max_packet_len;
d->ep_out.bInterval = info->polling_interval;
// Config descriptor
usb_desc_add_iface(sizeof(*d));
// Interface state
usb_iface_t *i = &usb_ifaces[info->iface_num];
i->hid.ep_in = info->ep_in;
i->hid.ep_out = info->ep_out;
i->hid.rx_buffer = info->hid_buffer;
i->hid.max_packet_len = info->max_packet_len;
i->hid.report_desc_len = info->report_desc_len;
i->hid.report_desc = info->report_desc;
i->hid.desc_block = d;
}
int usb_hid_can_read(uint8_t iface_num) {
return ((iface_num < USBD_MAX_NUM_INTERFACES) &&
(usb_ifaces[iface_num].type == USB_IFACE_TYPE_HID) &&
(usb_ifaces[iface_num].hid.rx_buffer_len > 0) &&
usb_dev_handle.dev_state == USBD_STATE_CONFIGURED);
}
int usb_hid_can_write(uint8_t iface_num) {
return ((iface_num < USBD_MAX_NUM_INTERFACES) &&
(usb_ifaces[iface_num].type == USB_IFACE_TYPE_HID) &&
(usb_ifaces[iface_num].hid.is_idle) &&
usb_dev_handle.dev_state == USBD_STATE_CONFIGURED);
}
int usb_hid_read(uint8_t iface_num, uint8_t *buf, uint32_t len) {
if (iface_num >= USBD_MAX_NUM_INTERFACES) {
return -1; // Invalid interface number
}
if (usb_ifaces[iface_num].type != USB_IFACE_TYPE_HID) {
return -1; // Invalid interface number
}
usb_hid_state_t *state = &usb_ifaces[iface_num].hid;
if (len < state->rx_buffer_len) {
return 0; // Not enough data in the read buffer
}
memcpy(buf, state->rx_buffer, state->rx_buffer_len);
// Clear NAK to indicate we are ready to read more data
usb_ep_clear_nak(&usb_dev_handle, state->ep_out);
return state->rx_buffer_len;
}
int usb_hid_write(uint8_t iface_num, const uint8_t *buf, uint32_t len) {
if (iface_num >= USBD_MAX_NUM_INTERFACES) {
return -1; // Invalid interface number
}
if (usb_ifaces[iface_num].type != USB_IFACE_TYPE_HID) {
return -1; // Invalid interface number
}
usb_hid_state_t *state = &usb_ifaces[iface_num].hid;
state->in_idle = 0;
USBD_LL_Transmit(&usb_dev_handle, state->ep_in, (uint8_t *)buf, (uint16_t)len);
}
static int usb_hid_class_init(USBD_HandleTypeDef *dev, usb_hid_state_t *state, uint8_t cfg_idx) {
// Open endpoints
USBD_LL_OpenEP(dev, state->ep_in, USBD_EP_TYPE_INTR, state->max_packet_len);
USBD_LL_OpenEP(dev, state->ep_out, USBD_EP_TYPE_INTR, state->max_packet_len);
// Reset the state
state->in_idle = 1;
state->protocol = 0;
state->idle_state = 0;
state->alt_setting = 0;
// Prepare Out endpoint to receive next packet
USBD_LL_PrepareReceive(dev, hid_out_ep, state->rx_buffer, state->max_packet_len);
}
static int usb_hid_class_deinit(USBD_HandleTypeDef *dev, usb_hid_state_t *state, uint8_t cfg_idx) {
// Close endpoints
USBD_LL_CloseEP(dev, state->ep_in);
USBD_LL_CloseEP(dev, state->ep_out);
}
static int usb_hid_class_setup(USBD_HandleTypeDef *dev, usb_hid_state_t *state, USBD_SetupReqTypedef *req) {
switch (req->bmRequest & USB_REQ_TYPE_MASK) {
// Class request
case USB_REQ_TYPE_CLASS:
switch (req->bRequest) {
case HID_REQ_SET_PROTOCOL:
state->protocol = req->wValue;
break;
case HID_REQ_GET_PROTOCOL:
USBD_CtlSendData(dev, &state->protocol, sizeof(state->protocol));
break;
case HID_REQ_SET_IDLE:
state->idle_rate = req->wValue >> 8;
break;
case HID_REQ_GET_IDLE:
USBD_CtlSendData(dev, &state->idle_rate, sizeof(state->idle_rate));
break;
default:
USBD_CtlError(dev, req);
return USBD_FAIL;
}
break;
// Interface & Endpoint request
case USB_REQ_TYPE_STANDARD:
switch (req->bRequest) {
case USB_REQ_SET_INTERFACE:
state->alt_setting = req->wValue;
break;
case USB_REQ_GET_INTERFACE:
USBD_CtlSendData(dev, &state->alt_setting, sizeof(state->alt_setting));
break;
case USB_REQ_GET_DESCRIPTOR:
switch (req->wValue >> 8) {
case USB_DESC_TYPE_HID:
USBD_CtlSendData(dev, (uint8_t*)&state->desc_block->hid, MIN(req->wLength, sizeof(state->desc_block->hid)));
break;
case USB_DESC_TYPE_REPORT:
USBD_CtlSendData(dev, state->report_desc, MIN(req->wLength, state->report_desc_len));
break;
}
break;
}
break;
}
return USBD_OK;
}
static uint8_t usb_hid_class_data_in(USBD_HandleTypeDef *dev, usb_hid_state_t *state, uint8_t ep_num) {
if (ep_num == state->ep_in) {
// Ensure that the FIFO is empty before a new transfer,
// this condition could be caused by a new transfer
// before the end of the previous transfer.
state->in_idle = 1;
}
}
static uint8_t usb_hid_class_data_out(USBD_HandleTypeDef *dev, usb_hid_state_t *state, uint8_t ep_num) {
if (ep_num == state->ep_out) {
// User should provide state->rx_buffer_len that is big
// enough for state->max_packet_len bytes.
state->rx_buffer_len = USBD_LL_GetRxDataSize(dev, ep_num);
if (state->rx_buffer_len > 0) {
// Block the OUT EP until we process received data
usb_ep_set_nak(dev, ep_num);
}
}
}
static uint8_t usb_class_init(USBD_HandleTypeDef *dev, uint8_t cfg_idx) {
for (int i = 0; i < USBD_MAX_NUM_INTERFACES; i++) {
switch (usb_ifaces[i].type) {
case USB_IFACE_TYPE_HID:
usb_hid_class_init(dev, &usb_ifaces[i].hid, cfg_idx);
break;
}
}
return USBD_OK;
}
static uint8_t usb_class_deinit(USBD_HandleTypeDef *dev, uint8_t cfg_idx) {
for (int i = 0; i < USBD_MAX_NUM_INTERFACES; i++) {
switch (usb_ifaces[i].type) {
case USB_IFACE_TYPE_HID:
usb_hid_class_deinit(dev, &usb_ifaces[i].hid, cfg_idx);
break;
}
}
return USBD_OK;
}
static uint8_t usb_class_setup(USBD_HandleTypeDef *dev, USBD_SetupReqTypedef *req) {
if (((req->bmRequest & USB_REQ_TYPE_MASK) != USB_REQ_TYPE_CLASS) &&
((req->bmRequest & USB_REQ_TYPE_MASK) != USB_REQ_TYPE_STANDARD)) {
return USBD_OK;
}
if (req->wIndex >= USBD_MAX_NUM_INTERFACES) {
return USBD_FAIL;
}
switch (usb_ifaces[req->wIndex].type) {
case USB_IFACE_TYPE_HID:
return usb_hid_class_setup(dev, &usb_ifaces[req->wIndex].hid, req);
default:
return USBD_FAIL;
}
}
static uint8_t usb_class_ep0_rx_ready(USBD_HandleTypeDef *dev) {
return USBD_OK;
}
static uint8_t usb_class_data_in(USBD_HandleTypeDef *pdev, uint8_t ep_num) {
for (int i = 0; i < USBD_MAX_NUM_INTERFACES; i++) {
switch (usb_ifaces[i].type) {
case USB_IFACE_TYPE_HID:
usb_hid_class_data_in(dev, &usb_ifaces[i].hid, ep_num);
break;
}
}
return USBD_OK;
}
static uint8_t usb_class_data_out(USBD_HandleTypeDef *dev, uint8_t ep_num) {
for (int i = 0; i < USBD_MAX_NUM_INTERFACES; i++) {
switch (usb_ifaces[i].type) {
case USB_IFACE_TYPE_HID:
usb_hid_class_data_out(dev, &usb_ifaces[i].hid, ep_num);
break;
}
}
return USBD_OK;
}
static uint8_t *usb_class_get_cfg_desc(uint16_t *length) {
*length = usb_config_desc->wTotalLength;
return usb_config_buf;
}
static const USBD_ClassTypeDef usb_class = {
.Init = usb_class_init,
.DeInit = usb_class_deinit,
.Setup = usb_class_setup,
.EP0_TxSent = NULL,
.EP0_RxReady = usb_class_ep0_rx_ready,
.DataIn = usb_class_data_in,
.DataOut = usb_class_data_out,
.SOF = NULL,
.IsoINIncomplete = NULL,
.IsoOUTIncomplete = NULL,
.GetHSConfigDescriptor = usb_class_get_cfg_desc,
.GetFSConfigDescriptor = usb_class_get_cfg_desc,
.GetOtherSpeedConfigDescriptor = usb_class_get_cfg_desc,
.GetDeviceQualifierDescriptor = NULL,
};
static uint8_t usb_ep_set_nak(USBD_HandleTypeDef *dev, uint8_t ep_num) {
PCD_HandleTypeDef *hpcd = dev->pData;
USB_OTG_GlobalTypeDef *USBx = hpcd->Instance;
USBx_OUTEP(ep_num)->DOEPCTL |= USB_OTG_DOEPCTL_SNAK;
return USBD_OK;
}
static uint8_t usb_ep_clear_nak(USBD_HandleTypeDef *dev, uint8_t ep_num) {
PCD_HandleTypeDef *hpcd = dev->pData;
USB_OTG_GlobalTypeDef *USBx = hpcd->Instance;
USBx_OUTEP(ep_num)->DOEPCTL |= USB_OTG_DOEPCTL_CNAK;
return USBD_OK;
}
/**
* @brief This function handles USB-On-The-Go FS global interrupt request.
* @param None
@ -45,26 +468,13 @@ int usb_init(void) {
void OTG_FS_IRQHandler(void) {
HAL_PCD_IRQHandler(&pcd_fs_handle);
}
#endif
#if defined(USE_USB_HS)
/**
* @brief This function handles USB-On-The-Go HS global interrupt request.
* @param None
* @retval None
*/
void OTG_HS_IRQHandler(void) {
HAL_PCD_IRQHandler(&pcd_hs_handle);
}
#endif
#if defined(USE_USB_FS) || defined(USE_USB_HS)
/**
* @brief This function handles USB OTG Common FS/HS Wakeup functions.
* @param *pcd_handle for FS or HS
* @retval None
*/
STATIC void OTG_CMD_WKUP_Handler(PCD_HandleTypeDef *pcd_handle) {
static void OTG_CMD_WKUP_Handler(PCD_HandleTypeDef *pcd_handle) {
if (!(pcd_handle->Init.low_power_enable)) {
return;
}
@ -94,9 +504,7 @@ STATIC void OTG_CMD_WKUP_Handler(PCD_HandleTypeDef *pcd_handle) {
/* ungate PHY clock */
__HAL_PCD_UNGATE_PHYCLOCK(pcd_handle);
}
#endif
#if defined(USE_USB_FS)
/**
* @brief This function handles USB OTG FS Wakeup IRQ Handler.
* @param None
@ -108,18 +516,3 @@ void OTG_FS_WKUP_IRQHandler(void) {
/* Clear EXTI pending Bit*/
__HAL_USB_FS_EXTI_CLEAR_FLAG();
}
#endif
#if defined(USE_USB_HS)
/**
* @brief This function handles USB OTG HS Wakeup IRQ Handler.
* @param None
* @retval None
*/
void OTG_HS_WKUP_IRQHandler(void) {
OTG_CMD_WKUP_Handler(&pcd_hs_handle);
/* Clear EXTI pending Bit*/
__HAL_USB_HS_EXTI_CLEAR_FLAG();
}
#endif

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@ -1,6 +1,171 @@
#ifndef __TREZORHAL_USB_H__
#define __TREZORHAL_USB_H__
int usb_init(void);
typedef struct __attribute__((packed)) {
uint8_t bLength;
uint8_t bDescriptorType;
uint16_t bcdUSB;
uint8_t bDeviceClass;
uint8_t bDeviceSubClass;
uint8_t bDeviceProtocol;
uint8_t bMaxPacketSize0;
uint16_t idVendor;
uint16_t idProduct;
uint16_t bcdDevice;
uint8_t iManufacturer;
uint8_t iProduct;
uint8_t iSerialNumber;
uint8_t bNumConfigurations;
} usb_device_descriptor_t;
typedef struct __attribute__((packed)) {
uint8_t bLength;
uint8_t bDescriptorType;
uint16_t wData;
} usb_string_descriptor_t;
typedef struct __attribute__((packed)) {
uint8_t bLength;
uint8_t bDescriptorType;
uint16_t wTotalLength;
uint8_t bNumInterfaces;
uint8_t bConfigurationValue;
uint8_t iConfiguration;
uint8_t bmAttributes;
uint8_t bMaxPower;
} usb_config_descriptor_t;
typedef struct __attribute__((packed)) {
uint8_t bLength;
uint8_t bDescriptorType;
uint8_t bInterfaceNumber;
uint8_t bAlternateSetting;
uint8_t bNumEndpoints;
uint8_t bInterfaceClass;
uint8_t bInterfaceSubClass;
uint8_t bInterfaceProtocol;
uint8_t iInterface;
} usb_interface_descriptor_t;
typedef struct __attribute__((packed)) {
uint8_t bLength;
uint8_t bDescriptorType;
uint8_t bEndpointAddress;
uint8_t bmAttributes;
uint16_t wMaxPacketSize;
uint8_t bInterval;
} usb_endpoint_descriptor_t;
typedef struct __attribute__((packed)) {
uint8_t bLength;
uint8_t bDescriptorType;
uint16_t bcdHID;
uint8_t bCountryCode;
uint8_t bNumDescriptors;
uint8_t bReportDescriptorType;
uint16_t wReportDescriptorLength;
} usb_hid_descriptor_t;
struct __attribute__((packed)) {
usb_interface_descriptor_t iface;
usb_hid_descriptor_t hid;
usb_endpoint_descriptor_t ep_in;
usb_endpoint_descriptor_t ep_out;
} usb_hid_descriptor_block_t;
typedef enum {
USB_LANGID_ENGLISH_US = 0x409,
} usb_language_id_t;
typedef struct {
const uint8_t *manufacturer_str;
const uint8_t *product_str;
const uint8_t *serial_str;
const uint8_t *config_str;
const uint8_t *interface_str;
} usb_string_table_t;
typedef struct {
uint16_t vendor_id;
uint16_t product_id;
uint16_t release_num;
const uint8_t *product_str;
const uint8_t *manufacturer_str;
const uint8_t *serial_number_str;
const uint8_t *configuration_str;
const uint8_t *interface_str;
} usb_dev_info_t;
typedef enum {
USB_HID_SUBCLASS_NONE = 0,
USB_HID_SUBCLASS_BOOT = 1,
} usb_hid_subclass_t;
typedef enum {
USB_HID_PROTOCOL_NONE = 0,
USB_HID_PROTOCOL_KEYBOARD = 1,
USB_HID_PROTOCOL_MOUSE = 2,
} usb_hid_protocol_t;
typedef struct {
// Interface configuration
uint8_t iface_num; // Address of this HID interface
uint8_t ep_in; // Address of IN endpoint (with the highest bit set)
uint8_t ep_out; // Address of OUT endpoint
// HID configuration
uint8_t subclass; // usb_iface_subclass_t
uint8_t protocol; // usb_iface_protocol_t
uint8_t max_packet_len; // rx_buffer should be big enough
uint8_t polling_interval; // In units of 1ms
uint8_t report_desc_len;
const uint8_t *report_desc;
// HID read buffer
uint8_t *rx_buffer; // Big enough for max_packet_len
} usb_hid_info_t;
typedef struct {
// HID state
uint8_t in_idle; // Set to 1 after IN endpoint gets idle
uint8_t protocol; // For SET_PROTOCOL/GET_PROTOCOL setup reqs
uint8_t idle_rate; // For SET_IDLE/GET_IDLE setup reqs
uint8_t alt_setting; // For SET_INTERFACE/GET_INTERFACE setup reqs
uint8_t rx_buffer_len; // Length of data read into rx_buffer
// HID configuration (copied from usb_hid_info_t on init)
uint8_t ep_in;
uint8_t ep_out;
uint8_t max_packet_len;
uint8_t report_desc_len;
uint8_t *rx_buffer;
const uint8_t *report_desc;
const usb_hid_descriptor_block_t *desc_block;
} usb_hid_state_t;
typedef enum {
USB_IFACE_TYPE_DISABLED = 0,
USB_IFACE_TYPE_CDC = 1,
USB_IFACE_TYPE_MSC = 2,
USD_IFACE_TYPE_HID = 3,
} usb_iface_type_t;
typedef struct {
union {
usb_hid_state_t hid;
};
usb_iface_type_t type;
} usb_iface_t;
int usb_init(const usb_dev_info_t *dev_info);
int usb_start(void);
int usb_stop(void);
int usb_hid_add(const usb_hid_info_t *hid_info);
int usb_hid_can_read(uint8_t iface_num);
int usb_hid_can_write(uint8_t iface_num);
int usb_hid_read(uint8_t iface_num, uint8_t *buf, uint32_t *len);
int usb_hid_write(uint8_t iface_num, const uint8_t *buf, uint32_t len);
#endif