/* * Copyright (c) 2024, sakumisu * * SPDX-License-Identifier: Apache-2.0 */ #include "usbd_core.h" #include "usbd_cdc_acm.h" #include "usbd_msc.h" /*!< endpoint address */ #define CDC_IN_EP 0x81 #define CDC_OUT_EP 0x02 #define CDC_INT_EP 0x83 #define MSC_IN_EP 0x84 #define MSC_OUT_EP 0x05 #define USBD_VID 0xFFFF #define USBD_PID 0xFFFF #define USBD_MAX_POWER 100 #define USBD_LANGID_STRING 1033 /*!< config descriptor size */ #define USB_CONFIG_SIZE (9 + CDC_ACM_DESCRIPTOR_LEN + MSC_DESCRIPTOR_LEN) #ifdef CONFIG_USB_HS #define CDC_MAX_MPS 512 #else #define CDC_MAX_MPS 64 #endif #ifdef CONFIG_USB_HS #define MSC_MAX_MPS 512 #else #define MSC_MAX_MPS 64 #endif static const uint8_t device_descriptor[] = { USB_DEVICE_DESCRIPTOR_INIT(USB_2_0, 0xEF, 0x02, 0x01, USBD_VID, USBD_PID, 0x0100, 0x01) }; static const uint8_t config_descriptor[] = { USB_CONFIG_DESCRIPTOR_INIT(USB_CONFIG_SIZE, 0x03, 0x01, USB_CONFIG_BUS_POWERED, USBD_MAX_POWER), CDC_ACM_DESCRIPTOR_INIT(0x00, CDC_INT_EP, CDC_OUT_EP, CDC_IN_EP, CDC_MAX_MPS, 0x02), MSC_DESCRIPTOR_INIT(0x02, MSC_OUT_EP, MSC_IN_EP, MSC_MAX_MPS, 0x00) }; 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 CDC MSC DEMO", /* Product */ "2022123456", /* Serial Number */ }; 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 > 3) { return NULL; } return string_descriptors[index]; } const struct usb_descriptor cdc_msc_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 }; USB_NOCACHE_RAM_SECTION USB_MEM_ALIGNX uint8_t read_buffer[2048]; /* 2048 is only for test speed , please use CDC_MAX_MPS for common*/ 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, CDC_OUT_EP, read_buffer, 2048); break; case USBD_EVENT_SET_REMOTE_WAKEUP: break; case USBD_EVENT_CLR_REMOTE_WAKEUP: break; default: break; } } void usbd_cdc_acm_bulk_out(uint8_t busid, uint8_t ep, uint32_t nbytes) { USB_LOG_RAW("actual out len:%d\r\n", (unsigned int)nbytes); /* setup next out ep read transfer */ usbd_ep_start_read(busid, CDC_OUT_EP, read_buffer, 2048); } void usbd_cdc_acm_bulk_in(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, CDC_IN_EP, NULL, 0); } else { ep_tx_busy_flag = false; } } /*!< endpoint call back */ struct usbd_endpoint cdc_out_ep = { .ep_addr = CDC_OUT_EP, .ep_cb = usbd_cdc_acm_bulk_out }; struct usbd_endpoint cdc_in_ep = { .ep_addr = CDC_IN_EP, .ep_cb = usbd_cdc_acm_bulk_in }; struct usbd_interface intf0; struct usbd_interface intf1; struct usbd_interface intf2; void cdc_acm_msc_init(uint8_t busid, uintptr_t reg_base) { usbd_desc_register(busid, &cdc_msc_descriptor); usbd_add_interface(busid, usbd_cdc_acm_init_intf(busid, &intf0)); usbd_add_interface(busid, usbd_cdc_acm_init_intf(busid, &intf1)); usbd_add_endpoint(busid, &cdc_out_ep); usbd_add_endpoint(busid, &cdc_in_ep); usbd_add_interface(busid, usbd_msc_init_intf(busid, &intf2, MSC_OUT_EP, MSC_IN_EP)); usbd_initialize(busid, reg_base, usbd_event_handler); } volatile uint8_t dtr_enable = 0; void usbd_cdc_acm_set_dtr(uint8_t busid, uint8_t intf, bool dtr) { if (dtr) { dtr_enable = 1; } else { dtr_enable = 0; } } void cdc_acm_data_send_with_dtr_test(uint8_t busid) { if (dtr_enable) { memset(&write_buffer[10], 'a', 2038); ep_tx_busy_flag = true; usbd_ep_start_write(busid, CDC_IN_EP, write_buffer, 2048); while (ep_tx_busy_flag) { } } } #define BLOCK_SIZE 512 #define BLOCK_COUNT 10 typedef struct { uint8_t BlockSpace[BLOCK_SIZE]; } BLOCK_TYPE; BLOCK_TYPE mass_block[BLOCK_COUNT]; void usbd_msc_get_cap(uint8_t busid, uint8_t lun, uint32_t *block_num, uint32_t *block_size) { *block_num = 1000; //Pretend having so many buffer,not has actually. *block_size = BLOCK_SIZE; } int usbd_msc_sector_read(uint8_t busid, uint8_t lun, uint32_t sector, uint8_t *buffer, uint32_t length) { if (sector < 10) memcpy(buffer, mass_block[sector].BlockSpace, length); return 0; } int usbd_msc_sector_write(uint8_t busid, uint8_t lun, uint32_t sector, uint8_t *buffer, uint32_t length) { if (sector < 10) memcpy(mass_block[sector].BlockSpace, buffer, length); return 0; }