CherryUSB/demo/winusb2.0_template.c

/*
 * Copyright (c) 2024, sakumisu
 *
 * SPDX-License-Identifier: Apache-2.0
 */
#include "usbd_core.h"

#define WINUSB_VENDOR_CODE 0x17

#define WINUSB_NUM 1

// note that if device is composite device, you should use USB_MSOSV2_COMP_ID_FUNCTION_WINUSB_MULTI_DESCRIPTOR_INIT
const uint8_t WINUSB_WCIDDescriptor[] = {
#if WINUSB_NUM == 1
    USB_MSOSV2_COMP_ID_SET_HEADER_DESCRIPTOR_INIT(10 + USB_MSOSV2_COMP_ID_FUNCTION_WINUSB_SINGLE_DESCRIPTOR_LEN),
    USB_MSOSV2_COMP_ID_FUNCTION_WINUSB_SINGLE_DESCRIPTOR_INIT(),
#else
    USB_MSOSV2_COMP_ID_SET_HEADER_DESCRIPTOR_INIT(10 + WINUSB_NUM * USB_MSOSV2_COMP_ID_FUNCTION_WINUSB_MULTI_DESCRIPTOR_LEN),
    USB_MSOSV2_COMP_ID_FUNCTION_WINUSB_MULTI_DESCRIPTOR_INIT(0x00),
    USB_MSOSV2_COMP_ID_FUNCTION_WINUSB_MULTI_DESCRIPTOR_INIT(0x01),
#endif
};

const uint8_t USBD_BinaryObjectStoreDescriptor[] = {
    USB_BOS_HEADER_DESCRIPTOR_INIT(5 + USB_BOS_CAP_PLATFORM_WINUSB_DESCRIPTOR_LEN, 1),
    USB_BOS_CAP_PLATFORM_WINUSB_DESCRIPTOR_INIT(WINUSB_VENDOR_CODE, sizeof(WINUSB_WCIDDescriptor)),
};

const struct usb_msosv2_descriptor msosv2_desc = {
    .vendor_code = WINUSB_VENDOR_CODE,
    .compat_id = WINUSB_WCIDDescriptor,
    .compat_id_len = sizeof(WINUSB_WCIDDescriptor),
};

const struct usb_bos_descriptor bos_desc = {
    .string = USBD_BinaryObjectStoreDescriptor,
    .string_len = sizeof(USBD_BinaryObjectStoreDescriptor),
};

#define WINUSB_IN_EP  0x81
#define WINUSB_OUT_EP 0x02

#define USBD_VID           0xFFFE
#define USBD_PID           0xffff
#define USBD_MAX_POWER     100
#define USBD_LANGID_STRING 1033

#if WINUSB_NUM == 1
#define USB_CONFIG_SIZE (9 + 9 + 7 + 7)
#define INTF_NUM        1
#else
#define WINUSB_IN_EP2  0x83
#define WINUSB_OUT_EP2 0x04

#define USB_CONFIG_SIZE (9 + 9 + 7 + 7 + 9 + 7 + 7)
#define INTF_NUM        2
#endif

#ifdef CONFIG_USB_HS
#define WINUSB_EP_MPS 512
#else
#define WINUSB_EP_MPS 64
#endif

static const uint8_t device_descriptor[] = {
    USB_DEVICE_DESCRIPTOR_INIT(USB_2_1, 0x00, 0x00, 0x00, USBD_VID, USBD_PID, 0x0001, 0x01)
};

static const uint8_t config_descriptor[] = {
    USB_CONFIG_DESCRIPTOR_INIT(USB_CONFIG_SIZE, INTF_NUM, 0x01, USB_CONFIG_BUS_POWERED, USBD_MAX_POWER),
    USB_INTERFACE_DESCRIPTOR_INIT(0x00, 0x00, 0x02, 0xff, 0xff, 0x00, 0x04),
    USB_ENDPOINT_DESCRIPTOR_INIT(WINUSB_IN_EP, 0x02, WINUSB_EP_MPS, 0x00),
    USB_ENDPOINT_DESCRIPTOR_INIT(WINUSB_OUT_EP, 0x02, WINUSB_EP_MPS, 0x00),
#if WINUSB_NUM == 2
    USB_INTERFACE_DESCRIPTOR_INIT(0x01, 0x00, 0x02, 0xff, 0xff, 0x00, 0x05),
    USB_ENDPOINT_DESCRIPTOR_INIT(WINUSB_IN_EP2, 0x02, WINUSB_EP_MPS, 0x00),
    USB_ENDPOINT_DESCRIPTOR_INIT(WINUSB_OUT_EP2, 0x02, WINUSB_EP_MPS, 0x00),
#endif
};

static const uint8_t device_quality_descriptor[] = {
    ///////////////////////////////////////
    /// device qualifier descriptor
    ///////////////////////////////////////
    0x0a,
    USB_DESCRIPTOR_TYPE_DEVICE_QUALIFIER,
    0x00,
    0x02,
    0x00,
    0x00,
    0x00,
    0x40,
    0x00,
    0x00,
};

static const char *string_descriptors[] = {
    (const char[]){ 0x09, 0x04 }, /* Langid */
    "CherryUSB",                  /* Manufacturer */
    "CherryUSB WINUSB DEMO",      /* Product */
    "2022123456",                 /* Serial Number */
    "CherryUSB WINUSB DEMO 1",    /* STRING4 */
    "CherryUSB WINUSB DEMO 2",    /* STRING5 */
};

static const uint8_t *device_descriptor_callback(uint8_t speed)
{
    return device_descriptor;
}

static const uint8_t *config_descriptor_callback(uint8_t speed)
{
    return config_descriptor;
}

static const uint8_t *device_quality_descriptor_callback(uint8_t speed)
{
    return device_quality_descriptor;
}

static const char *string_descriptor_callback(uint8_t speed, uint8_t index)
{
    if (index > 5) {
        return NULL;
    }
    return string_descriptors[index];
}

const struct usb_descriptor winusbv2_descriptor = {
    .device_descriptor_callback = device_descriptor_callback,
    .config_descriptor_callback = config_descriptor_callback,
    .device_quality_descriptor_callback = device_quality_descriptor_callback,
    .string_descriptor_callback = string_descriptor_callback,
    .msosv2_descriptor = &msosv2_desc,
    .bos_descriptor = &bos_desc,
};

USB_NOCACHE_RAM_SECTION USB_MEM_ALIGNX uint8_t read_buffer[2048];
USB_NOCACHE_RAM_SECTION USB_MEM_ALIGNX uint8_t write_buffer[2048];

volatile bool ep_tx_busy_flag = false;

static void usbd_event_handler(uint8_t busid, uint8_t event)
{
    switch (event) {
        case USBD_EVENT_RESET:
            break;
        case USBD_EVENT_CONNECTED:
            break;
        case USBD_EVENT_DISCONNECTED:
            break;
        case USBD_EVENT_RESUME:
            break;
        case USBD_EVENT_SUSPEND:
            break;
        case USBD_EVENT_CONFIGURED:
            ep_tx_busy_flag = false;
            /* setup first out ep read transfer */
            usbd_ep_start_read(busid, WINUSB_OUT_EP, read_buffer, 2048);
#if WINUSB_NUM == 2
            usbd_ep_start_read(busid, WINUSB_OUT_EP2, read_buffer, 2048);
#endif
            break;
        case USBD_EVENT_SET_REMOTE_WAKEUP:
            break;
        case USBD_EVENT_CLR_REMOTE_WAKEUP:
            break;

        default:
            break;
    }
}

void usbd_winusb_out(uint8_t busid, uint8_t ep, uint32_t nbytes)
{
    USB_LOG_RAW("actual out len:%d\r\n", (unsigned int)nbytes);
    // for (int i = 0; i < 100; i++) {
    //     printf("%02x ", read_buffer[i]);
    // }
    // printf("\r\n");
    usbd_ep_start_write(busid, WINUSB_IN_EP, read_buffer, nbytes);
    /* setup next out ep read transfer */
    usbd_ep_start_read(busid, WINUSB_OUT_EP, read_buffer, 2048);
}

void usbd_winusb_in(uint8_t busid, uint8_t ep, uint32_t nbytes)
{
    USB_LOG_RAW("actual in len:%d\r\n", (unsigned int)nbytes);

    if ((nbytes % WINUSB_EP_MPS) == 0 && nbytes) {
        /* send zlp */
        usbd_ep_start_write(busid, WINUSB_IN_EP, NULL, 0);
    } else {
        ep_tx_busy_flag = false;
    }
}

struct usbd_endpoint winusb_out_ep1 = {
    .ep_addr = WINUSB_OUT_EP,
    .ep_cb = usbd_winusb_out
};

struct usbd_endpoint winusb_in_ep1 = {
    .ep_addr = WINUSB_IN_EP,
    .ep_cb = usbd_winusb_in
};

struct usbd_interface intf0;

#if WINUSB_NUM == 2

void usbd_winusb_out2(uint8_t busid, uint8_t ep, uint32_t nbytes)
{
    USB_LOG_RAW("actual out len:%d\r\n", (unsigned int)nbytes);
    // for (int i = 0; i < 100; i++) {
    //     printf("%02x ", read_buffer[i]);
    // }
    // printf("\r\n");
    usbd_ep_start_write(busid, WINUSB_IN_EP2, read_buffer, nbytes);
    /* setup next out ep read transfer */
    usbd_ep_start_read(busid, WINUSB_OUT_EP2, read_buffer, 2048);
}

void usbd_winusb_in2(uint8_t busid, uint8_t ep, uint32_t nbytes)
{
    USB_LOG_RAW("actual in len:%d\r\n", (unsigned int)nbytes);

    if ((nbytes % usbd_get_ep_mps(busid, ep)) == 0 && nbytes) {
        /* send zlp */
        usbd_ep_start_write(busid, WINUSB_IN_EP2, NULL, 0);
    } else {
        ep_tx_busy_flag = false;
    }
}

struct usbd_endpoint winusb_out_ep2 = {
    .ep_addr = WINUSB_OUT_EP2,
    .ep_cb = usbd_winusb_out2
};

struct usbd_endpoint winusb_in_ep2 = {
    .ep_addr = WINUSB_IN_EP2,
    .ep_cb = usbd_winusb_in2
};

struct usbd_interface intf1;

#endif

void winusbv2_init(uint8_t busid, uintptr_t reg_base)
{
    usbd_desc_register(busid, &winusbv2_descriptor);

    usbd_add_interface(busid, &intf0);
    usbd_add_endpoint(busid, &winusb_out_ep1);
    usbd_add_endpoint(busid, &winusb_in_ep1);
#if WINUSB_NUM == 2
    usbd_add_interface(busid, &intf1);
    usbd_add_endpoint(busid, &winusb_out_ep2);
    usbd_add_endpoint(busid, &winusb_in_ep2);
#endif
    usbd_initialize(busid, reg_base, usbd_event_handler);
}