/* * The MIT License (MIT) * * Copyright (c) 2019 Ha Thach (tinyusb.org) * * Permission is hereby granted, free of charge, to any person obtaining a copy * of this software and associated documentation files (the "Software"), to deal * in the Software without restriction, including without limitation the rights * to use, copy, modify, merge, publish, distribute, sublicense, and/or sell * copies of the Software, and to permit persons to whom the Software is * furnished to do so, subject to the following conditions: * * The above copyright notice and this permission notice shall be included in * all copies or substantial portions of the Software. * * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE * AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, * OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN * THE SOFTWARE. * */ #include "tusb.h" #include "usb_descriptors.h" /* A combination of interfaces must have a unique product id, since PC will save device driver after the first plug. * Same VID/PID with different interface e.g MSC (first), then CDC (later) will possibly cause system error on PC. * * Auto ProductID layout's Bitmap: * [MSB] HID | MSC | CDC [LSB] */ #define _PID_MAP(itf, n) ((CFG_TUD_##itf) << (n)) #define USB_PID (0x4000 | _PID_MAP(CDC, 0) | _PID_MAP(MSC, 1) | _PID_MAP(HID, 2) | \ _PID_MAP(MIDI, 3) | _PID_MAP(VENDOR, 4)) #define USB_VID 0xCaff #define USB_BCD 0x0200 //--------------------------------------------------------------------+ // Device Descriptors //--------------------------------------------------------------------+ tusb_desc_device_t const desc_device = { .bLength = sizeof(tusb_desc_device_t), .bDescriptorType = TUSB_DESC_DEVICE, .bcdUSB = USB_BCD, // Use Interface Association Descriptor (IAD) for CDC // As required by USB Specs IAD's subclass must be common class (2) and protocol must be IAD (1) .bDeviceClass = TUSB_CLASS_CDC, .bDeviceSubClass = CDC_COMM_SUBCLASS_ABSTRACT_CONTROL_MODEL, .bDeviceProtocol = CDC_COMM_PROTOCOL_NONE, .bMaxPacketSize0 = CFG_TUD_ENDPOINT0_SIZE, .idVendor = USB_VID, .idProduct = USB_PID, .bcdDevice = 0x0100, .iManufacturer = 0x01, .iProduct = 0x02, .iSerialNumber = 0x03, .bNumConfigurations = 0x01}; // Invoked when received GET DEVICE DESCRIPTOR // Application return pointer to descriptor uint8_t const *tud_descriptor_device_cb(void) { return (uint8_t const *)&desc_device; } //--------------------------------------------------------------------+ // Configuration Descriptor //--------------------------------------------------------------------+ // THIS MUST HAVE ONLY THE MINIMUM AMOUNT OF CLASSES BEING USED // I HAD THE STORAGE CLASS IN THIS LIST ACCIDENTALLY FROM THE EXAMPLE // AND THE CDC DID NOT WORK SINCE THE STORAGE CLASS WAS NOT CONFIGURED! enum { ITF_NUM_CDC = 0, ITF_NUM_CDC_DATA, ITF_NUM_TOTAL }; #if CFG_TUSB_MCU == OPT_MCU_LPC175X_6X || CFG_TUSB_MCU == OPT_MCU_LPC177X_8X || CFG_TUSB_MCU == OPT_MCU_LPC40XX // LPC 17xx and 40xx endpoint type (bulk/interrupt/iso) are fixed by its number // 0 control, 1 In, 2 Bulk, 3 Iso, 4 In, 5 Bulk etc ... #define EPNUM_CDC_NOTIF 0x81 #define EPNUM_CDC_OUT 0x02 #define EPNUM_CDC_IN 0x82 #define EPNUM_MSC_OUT 0x05 #define EPNUM_MSC_IN 0x85 #elif CFG_TUSB_MCU == OPT_MCU_SAMG || CFG_TUSB_MCU == OPT_MCU_SAMX7X // SAMG & SAME70 don't support a same endpoint number with different direction IN and OUT // e.g EP1 OUT & EP1 IN cannot exist together #define EPNUM_CDC_NOTIF 0x81 #define EPNUM_CDC_OUT 0x02 #define EPNUM_CDC_IN 0x83 #define EPNUM_MSC_OUT 0x04 #define EPNUM_MSC_IN 0x85 #elif CFG_TUSB_MCU == OPT_MCU_CXD56 // CXD56 doesn't support a same endpoint number with different direction IN and OUT // e.g EP1 OUT & EP1 IN cannot exist together // CXD56 USB driver has fixed endpoint type (bulk/interrupt/iso) and direction (IN/OUT) by its number // 0 control (IN/OUT), 1 Bulk (IN), 2 Bulk (OUT), 3 In (IN), 4 Bulk (IN), 5 Bulk (OUT), 6 In (IN) #define EPNUM_CDC_NOTIF 0x83 #define EPNUM_CDC_OUT 0x02 #define EPNUM_CDC_IN 0x81 #define EPNUM_MSC_OUT 0x05 #define EPNUM_MSC_IN 0x84 #elif CFG_TUSB_MCU == OPT_MCU_FT90X || CFG_TUSB_MCU == OPT_MCU_FT93X // FT9XX doesn't support a same endpoint number with different direction IN and OUT // e.g EP1 OUT & EP1 IN cannot exist together #define EPNUM_CDC_NOTIF 0x81 #define EPNUM_CDC_OUT 0x02 #define EPNUM_CDC_IN 0x83 #define EPNUM_MSC_OUT 0x04 #define EPNUM_MSC_IN 0x85 #else #define EPNUM_CDC_NOTIF 0x81 #define EPNUM_CDC_OUT 0x02 #define EPNUM_CDC_IN 0x82 #endif #define CONFIG_TOTAL_LEN (TUD_CONFIG_DESC_LEN + TUD_CDC_DESC_LEN) // full speed configuration uint8_t const desc_fs_configuration[] = { // Config number, interface count, string index, total length, attribute, power in mA TUD_CONFIG_DESCRIPTOR(1, ITF_NUM_TOTAL, 0, CONFIG_TOTAL_LEN, 0x00, 500), // Interface number, string index, EP notification address and size, EP data address (out, in) and size. TUD_CDC_DESCRIPTOR(ITF_NUM_CDC, 4, EPNUM_CDC_NOTIF, 8, EPNUM_CDC_OUT, EPNUM_CDC_IN, 64), // Interface number, string index, EP Out & EP In address, EP size // TUD_MSC_DESCRIPTOR(ITF_NUM_MSC, 5, EPNUM_MSC_OUT, EPNUM_MSC_IN, 64), }; #if TUD_OPT_HIGH_SPEED // Per USB specs: high speed capable device must report device_qualifier and other_speed_configuration // high speed configuration uint8_t const desc_hs_configuration[] = { // Config number, interface count, string index, total length, attribute, power in mA TUD_CONFIG_DESCRIPTOR(1, ITF_NUM_TOTAL, 0, CONFIG_TOTAL_LEN, 0x00, 100), // Interface number, string index, EP notification address and size, EP data address (out, in) and size. TUD_CDC_DESCRIPTOR(ITF_NUM_CDC, 4, EPNUM_CDC_NOTIF, 8, EPNUM_CDC_OUT, EPNUM_CDC_IN, 512), // Interface number, string index, EP Out & EP In address, EP size // TUD_MSC_DESCRIPTOR(ITF_NUM_MSC, 5, EPNUM_MSC_OUT, EPNUM_MSC_IN, 512), }; // other speed configuration uint8_t desc_other_speed_config[CONFIG_TOTAL_LEN]; // device qualifier is mostly similar to device descriptor since we don't change configuration based on speed tusb_desc_device_qualifier_t const desc_device_qualifier = { .bLength = sizeof(tusb_desc_device_qualifier_t), .bDescriptorType = TUSB_DESC_DEVICE_QUALIFIER, .bcdUSB = USB_BCD, .bDeviceClass = TUSB_CLASS_MISC, .bDeviceSubClass = MISC_SUBCLASS_COMMON, .bDeviceProtocol = MISC_PROTOCOL_IAD, .bMaxPacketSize0 = CFG_TUD_ENDPOINT0_SIZE, .bNumConfigurations = 0x01, .bReserved = 0x00}; // Invoked when received GET DEVICE QUALIFIER DESCRIPTOR request // Application return pointer to descriptor, whose contents must exist long enough for transfer to complete. // device_qualifier descriptor describes information about a high-speed capable device that would // change if the device were operating at the other speed. If not highspeed capable stall this request. uint8_t const *tud_descriptor_device_qualifier_cb(void) { return (uint8_t const *)&desc_device_qualifier; } // Invoked when received GET OTHER SEED CONFIGURATION DESCRIPTOR request // Application return pointer to descriptor, whose contents must exist long enough for transfer to complete // Configuration descriptor in the other speed e.g if high speed then this is for full speed and vice versa uint8_t const *tud_descriptor_other_speed_configuration_cb(uint8_t index) { (void)index; // for multiple configurations // if link speed is high return fullspeed config, and vice versa // Note: the descriptor type is OHER_SPEED_CONFIG instead of CONFIG memcpy(desc_other_speed_config, (tud_speed_get() == TUSB_SPEED_HIGH) ? desc_fs_configuration : desc_hs_configuration, CONFIG_TOTAL_LEN); desc_other_speed_config[1] = TUSB_DESC_OTHER_SPEED_CONFIG; return desc_other_speed_config; } #endif // highspeed // Invoked when received GET CONFIGURATION DESCRIPTOR // Application return pointer to descriptor // Descriptor contents must exist long enough for transfer to complete uint8_t const *tud_descriptor_configuration_cb(uint8_t index) { (void)index; // for multiple configurations #if TUD_OPT_HIGH_SPEED // Although we are highspeed, host may be fullspeed. return (tud_speed_get() == TUSB_SPEED_HIGH) ? desc_hs_configuration : desc_fs_configuration; #else return desc_fs_configuration; #endif } //--------------------------------------------------------------------+ // String Descriptors //--------------------------------------------------------------------+ // String Descriptor Index enum { STRID_LANGID = 0, STRID_MANUFACTURER, STRID_PRODUCT, STRID_SERIAL, }; // array of pointer to string descriptors char const *string_desc_arr[] = { (const char[]){0x09, 0x04}, // 0: is supported language is English (0x0409) "Peterus", // 1: Manufacturer "Neptunium", // 2: Product NULL, // 3: Serials will use unique ID if possible "Neptunium CDC", // 4: CDC Interface }; #define DESC_STR_SIZE 32 // bytes static uint16_t _desc_str[DESC_STR_SIZE + 1]; static size_t board_usb_get_serial(uint16_t desc_str1[], size_t max_chars) { uint8_t uid[16] __attribute__((aligned(4))); size_t uid_len; uint32_t *uid32 = (uint32_t *)(uintptr_t)uid; uid32[0] = HAL_GetUIDw0(); uid32[1] = HAL_GetUIDw1(); uid32[2] = HAL_GetUIDw2(); uid_len = 12; if (uid_len > max_chars / 2) uid_len = max_chars / 2; for (size_t i = 0; i < uid_len; i++) { for (size_t j = 0; j < 2; j++) { const char nibble_to_hex[16] = { '0', '1', '2', '3', '4', '5', '6', '7', '8', '9', 'A', 'B', 'C', 'D', 'E', 'F'}; uint8_t const nibble = (uid[i] >> (j * 4)) & 0xf; desc_str1[i * 2 + (1 - j)] = nibble_to_hex[nibble]; // UTF-16-LE } } return 2 * uid_len; } // Invoked when received GET STRING DESCRIPTOR request // Application return pointer to descriptor, whose contents must exist long enough for transfer to complete uint16_t const *tud_descriptor_string_cb(uint8_t index, uint16_t langid) { (void)langid; size_t chr_count; switch (index) { case STRID_LANGID: memcpy(&_desc_str[1], string_desc_arr[0], 2); chr_count = 1; break; case STRID_SERIAL: chr_count = board_usb_get_serial(_desc_str + 1, DESC_STR_SIZE); break; default: // Note: the 0xEE index string is a Microsoft OS 1.0 Descriptors. // https://docs.microsoft.com/en-us/windows-hardware/drivers/usbcon/microsoft-defined-usb-descriptors if (!(index < sizeof(string_desc_arr) / sizeof(string_desc_arr[0]))) return NULL; const char *str = string_desc_arr[index]; // Cap at max char chr_count = strlen(str); size_t const max_count = sizeof(_desc_str) / sizeof(_desc_str[0]) - 1; // -1 for string type if (chr_count > max_count) chr_count = max_count; // Convert ASCII string into UTF-16 for (size_t i = 0; i < chr_count; i++) { _desc_str[1 + i] = str[i]; } break; } // first byte is length (including header), second byte is string type _desc_str[0] = (uint16_t)((TUSB_DESC_STRING << 8) | (2 * chr_count + 2)); return _desc_str; }