/* * 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. * * This file is part of the TinyUSB stack. */ #include "tusb_option.h" #if (TUSB_OPT_HOST_ENABLED && CFG_TUH_HID) #include "host/usbh.h" #include "host/usbh_classdriver.h" #include "hid_host.h" //--------------------------------------------------------------------+ // MACRO CONSTANT TYPEDEF //--------------------------------------------------------------------+ typedef struct { uint8_t itf_num; uint8_t ep_in; uint8_t ep_out; uint8_t itf_protocol; // None, Keyboard, Mouse uint8_t protocol_mode; // Boot (0) or Report protocol (1) uint8_t report_desc_type; uint16_t report_desc_len; uint16_t epin_size; uint16_t epout_size; uint8_t epin_buf[CFG_TUH_HID_EP_BUFSIZE]; uint8_t epout_buf[CFG_TUH_HID_EP_BUFSIZE]; } hidh_interface_t; typedef struct { uint8_t inst_count; hidh_interface_t instances[CFG_TUH_HID]; } hidh_device_t; static hidh_device_t _hidh_dev[CFG_TUSB_HOST_DEVICE_MAX-1]; //------------- Internal prototypes -------------// // Get HID device & interface TU_ATTR_ALWAYS_INLINE static inline hidh_device_t* get_dev(uint8_t dev_addr); TU_ATTR_ALWAYS_INLINE static inline hidh_interface_t* get_instance(uint8_t dev_addr, uint8_t instance); static uint8_t get_instance_id_by_itfnum(uint8_t dev_addr, uint8_t itf); static uint8_t get_instance_id_by_epaddr(uint8_t dev_addr, uint8_t ep_addr); TU_ATTR_ALWAYS_INLINE static inline bool hidh_get_report(uint8_t dev_addr, hidh_interface_t* hid_itf) { return usbh_edpt_xfer(dev_addr, hid_itf->ep_in, hid_itf->epin_buf, hid_itf->epin_size); } //--------------------------------------------------------------------+ // Application API //--------------------------------------------------------------------+ uint8_t tuh_hid_instance_count(uint8_t dev_addr) { return get_dev(dev_addr)->inst_count; } bool tuh_hid_mounted(uint8_t dev_addr, uint8_t instance) { hidh_interface_t* hid_itf = get_instance(dev_addr, instance); return (hid_itf->ep_in != 0) || (hid_itf->ep_out != 0); } uint8_t tuh_hid_interface_protocol(uint8_t dev_addr, uint8_t instance) { hidh_interface_t* hid_itf = get_instance(dev_addr, instance); return hid_itf->itf_protocol; } bool tuh_hid_get_protocol(uint8_t dev_addr, uint8_t instance) { hidh_interface_t* hid_itf = get_instance(dev_addr, instance); return hid_itf->protocol_mode; } static bool set_protocol_complete(uint8_t dev_addr, tusb_control_request_t const * request, xfer_result_t result) { uint8_t const itf_num = (uint8_t) request->wIndex; uint8_t const instance = get_instance_id_by_itfnum(dev_addr, itf_num); hidh_interface_t* hid_itf = get_instance(dev_addr, instance); if (XFER_RESULT_SUCCESS == result) hid_itf->protocol_mode = (uint8_t) request->wValue; if (tuh_hid_set_protocol_complete_cb) { tuh_hid_set_protocol_complete_cb(dev_addr, instance, hid_itf->protocol_mode); } return true; } bool tuh_hid_set_protocol(uint8_t dev_addr, uint8_t instance, uint8_t protocol) { hidh_interface_t* hid_itf = get_instance(dev_addr, instance); TU_VERIFY(hid_itf->itf_protocol != HID_ITF_PROTOCOL_NONE); TU_LOG2("HID Set Protocol = %d\r\n", protocol); tusb_control_request_t const request = { .bmRequestType_bit = { .recipient = TUSB_REQ_RCPT_INTERFACE, .type = TUSB_REQ_TYPE_CLASS, .direction = TUSB_DIR_OUT }, .bRequest = HID_REQ_CONTROL_SET_PROTOCOL, .wValue = protocol, .wIndex = hid_itf->itf_num, .wLength = 0 }; TU_ASSERT( tuh_control_xfer(dev_addr, &request, NULL, set_protocol_complete) ); return true; } static bool set_report_complete(uint8_t dev_addr, tusb_control_request_t const * request, xfer_result_t result) { TU_LOG2("HID Set Report complete\r\n"); if (tuh_hid_set_report_complete_cb) { uint8_t const itf_num = (uint8_t) request->wIndex; uint8_t const instance = get_instance_id_by_itfnum(dev_addr, itf_num); uint8_t const report_type = tu_u16_high(request->wValue); uint8_t const report_id = tu_u16_low(request->wValue); tuh_hid_set_report_complete_cb(dev_addr, instance, report_id, report_type, (result == XFER_RESULT_SUCCESS) ? request->wLength : 0); } return true; } bool tuh_hid_set_report(uint8_t dev_addr, uint8_t instance, uint8_t report_id, uint8_t report_type, void* report, uint16_t len) { hidh_interface_t* hid_itf = get_instance(dev_addr, instance); TU_LOG2("HID Set Report: id = %u, type = %u, len = %u\r\n", report_id, report_type, len); tusb_control_request_t const request = { .bmRequestType_bit = { .recipient = TUSB_REQ_RCPT_INTERFACE, .type = TUSB_REQ_TYPE_CLASS, .direction = TUSB_DIR_OUT }, .bRequest = HID_REQ_CONTROL_SET_REPORT, .wValue = tu_u16(report_type, report_id), .wIndex = hid_itf->itf_num, .wLength = len }; TU_ASSERT( tuh_control_xfer(dev_addr, &request, report, set_report_complete) ); return true; } //bool tuh_n_hid_n_ready(uint8_t dev_addr, uint8_t instance) //{ // TU_VERIFY(tuh_n_hid_n_mounted(dev_addr, instance)); // // hidh_interface_t* hid_itf = get_instance(dev_addr, instance); // return !usbh_edpt_busy(dev_addr, hid_itf->ep_in); //} //void tuh_hid_send_report(uint8_t dev_addr, uint8_t instance, uint8_t report_id, uint8_t const* report, uint16_t len); //--------------------------------------------------------------------+ // USBH API //--------------------------------------------------------------------+ void hidh_init(void) { tu_memclr(_hidh_dev, sizeof(_hidh_dev)); } bool hidh_xfer_cb(uint8_t dev_addr, uint8_t ep_addr, xfer_result_t result, uint32_t xferred_bytes) { (void) result; uint8_t const dir = tu_edpt_dir(ep_addr); uint8_t const instance = get_instance_id_by_epaddr(dev_addr, ep_addr); hidh_interface_t* hid_itf = get_instance(dev_addr, instance); if ( dir == TUSB_DIR_IN ) { TU_LOG2(" Get Report callback (%u, %u)\r\n", dev_addr, instance); TU_LOG1_MEM(hid_itf->epin_buf, 8, 2); tuh_hid_report_received_cb(dev_addr, instance, hid_itf->epin_buf, xferred_bytes); // queue next report hidh_get_report(dev_addr, hid_itf); }else { if (tuh_hid_report_sent_cb) tuh_hid_report_sent_cb(dev_addr, instance, hid_itf->epout_buf, xferred_bytes); } return true; } void hidh_close(uint8_t dev_addr) { hidh_device_t* hid_dev = get_dev(dev_addr); if (tuh_hid_umount_cb) { for ( uint8_t inst = 0; inst < hid_dev->inst_count; inst++ ) tuh_hid_umount_cb(dev_addr, inst); } tu_memclr(hid_dev, sizeof(hidh_device_t)); } //--------------------------------------------------------------------+ // Enumeration //--------------------------------------------------------------------+ static bool config_get_protocol (uint8_t dev_addr, tusb_control_request_t const * request, xfer_result_t result); static bool config_get_report_desc (uint8_t dev_addr, tusb_control_request_t const * request, xfer_result_t result); static bool config_get_report_desc_complete (uint8_t dev_addr, tusb_control_request_t const * request, xfer_result_t result); bool hidh_open(uint8_t rhport, uint8_t dev_addr, tusb_desc_interface_t const *desc_itf, uint16_t *p_length) { TU_VERIFY(TUSB_CLASS_HID == desc_itf->bInterfaceClass); uint8_t const *p_desc = (uint8_t const *) desc_itf; //------------- HID descriptor -------------// p_desc = tu_desc_next(p_desc); tusb_hid_descriptor_hid_t const *desc_hid = (tusb_hid_descriptor_hid_t const *) p_desc; TU_ASSERT(HID_DESC_TYPE_HID == desc_hid->bDescriptorType); // not enough interface, try to increase CFG_TUH_HID // TODO multiple devices hidh_device_t* hid_dev = get_dev(dev_addr); TU_ASSERT(hid_dev->inst_count < CFG_TUH_HID); //------------- Endpoint Descriptor -------------// p_desc = tu_desc_next(p_desc); tusb_desc_endpoint_t const * desc_ep = (tusb_desc_endpoint_t const *) p_desc; TU_ASSERT(TUSB_DESC_ENDPOINT == desc_ep->bDescriptorType); // TODO also open endpoint OUT TU_ASSERT( usbh_edpt_open(rhport, dev_addr, desc_ep) ); hidh_interface_t* hid_itf = get_instance(dev_addr, hid_dev->inst_count); hid_dev->inst_count++; hid_itf->itf_num = desc_itf->bInterfaceNumber; hid_itf->ep_in = desc_ep->bEndpointAddress; hid_itf->epin_size = desc_ep->wMaxPacketSize.size; // Assume bNumDescriptors = 1 hid_itf->report_desc_type = desc_hid->bReportType; hid_itf->report_desc_len = tu_unaligned_read16(&desc_hid->wReportLength); hid_itf->protocol_mode = HID_PROTOCOL_REPORT; // Per Specs: default is report mode if ( HID_SUBCLASS_BOOT == desc_itf->bInterfaceSubClass ) hid_itf->itf_protocol = desc_itf->bInterfaceProtocol; *p_length = sizeof(tusb_desc_interface_t) + sizeof(tusb_hid_descriptor_hid_t) + desc_itf->bNumEndpoints*sizeof(tusb_desc_endpoint_t); return true; } bool hidh_set_config(uint8_t dev_addr, uint8_t itf_num) { uint8_t const instance = get_instance_id_by_itfnum(dev_addr, itf_num); hidh_interface_t* hid_itf = get_instance(dev_addr, instance); // Idle rate = 0 mean only report when there is changes uint16_t const idle_rate = 0; // SET IDLE request, device can stall if not support this request TU_LOG2("HID Set Idle \r\n"); tusb_control_request_t const request = { .bmRequestType_bit = { .recipient = TUSB_REQ_RCPT_INTERFACE, .type = TUSB_REQ_TYPE_CLASS, .direction = TUSB_DIR_OUT }, .bRequest = HID_REQ_CONTROL_SET_IDLE, .wValue = idle_rate, .wIndex = itf_num, .wLength = 0 }; TU_ASSERT( tuh_control_xfer(dev_addr, &request, NULL, (hid_itf->itf_protocol != HID_ITF_PROTOCOL_NONE) ? config_get_protocol : config_get_report_desc) ); return true; } static bool config_get_protocol(uint8_t dev_addr, tusb_control_request_t const * request, xfer_result_t result) { // Stall is a valid response for SET_IDLE GET_PROTOCOL, therefore we could ignore its result (void) result; uint8_t const itf_num = (uint8_t) request->wIndex; uint8_t const instance = get_instance_id_by_itfnum(dev_addr, itf_num); hidh_interface_t* hid_itf = get_instance(dev_addr, instance); TU_LOG2("HID Get Protocol\r\n"); tusb_control_request_t const new_request = { .bmRequestType_bit = { .recipient = TUSB_REQ_RCPT_INTERFACE, .type = TUSB_REQ_TYPE_CLASS, .direction = TUSB_DIR_IN }, .bRequest = HID_REQ_CONTROL_GET_PROTOCOL, .wValue = 0, .wIndex = hid_itf->itf_num, .wLength = 1 }; TU_ASSERT( tuh_control_xfer(dev_addr, &new_request, &hid_itf->protocol_mode, config_get_report_desc) ); return false; } static bool config_get_report_desc(uint8_t dev_addr, tusb_control_request_t const * request, xfer_result_t result) { // Stall is a valid response for SET_IDLE GET_PROTOCOL, therefore we could ignore its result (void) result; uint8_t const itf_num = (uint8_t) request->wIndex; uint8_t const instance = get_instance_id_by_itfnum(dev_addr, itf_num); hidh_interface_t* hid_itf = get_instance(dev_addr, instance); // Get Report Descriptor // using usbh enumeration buffer since report descriptor can be very long TU_ASSERT( hid_itf->report_desc_len <= CFG_TUH_ENUMERATION_BUFSZIE ); TU_LOG2("HID Get Report Descriptor\r\n"); tusb_control_request_t const new_request = { .bmRequestType_bit = { .recipient = TUSB_REQ_RCPT_INTERFACE, .type = TUSB_REQ_TYPE_STANDARD, .direction = TUSB_DIR_IN }, .bRequest = TUSB_REQ_GET_DESCRIPTOR, .wValue = tu_u16(hid_itf->report_desc_type, 0), .wIndex = itf_num, .wLength = hid_itf->report_desc_len }; TU_ASSERT(tuh_control_xfer(dev_addr, &new_request, usbh_get_enum_buf(), config_get_report_desc_complete)); return true; } static bool config_get_report_desc_complete(uint8_t dev_addr, tusb_control_request_t const * request, xfer_result_t result) { TU_ASSERT(XFER_RESULT_SUCCESS == result); uint8_t const itf_num = (uint8_t) request->wIndex; uint8_t const instance = get_instance_id_by_itfnum(dev_addr, itf_num); hidh_interface_t* hid_itf = get_instance(dev_addr, instance); uint8_t const* desc_report = usbh_get_enum_buf(); uint16_t const desc_len = request->wLength; // enumeration is complete tuh_hid_mount_cb(dev_addr, instance, desc_report, desc_len); // queue transfer for IN endpoint hidh_get_report(dev_addr, hid_itf); // notify usbh that driver enumeration is complete usbh_driver_set_config_complete(dev_addr, itf_num); return true; } //--------------------------------------------------------------------+ // Report Descriptor Parser //--------------------------------------------------------------------+ uint8_t tuh_hid_parse_report_descriptor(tuh_hid_report_info_t* report_info_arr, uint8_t arr_count, uint8_t const* desc_report, uint16_t desc_len) { // Report Item 6.2.2.2 USB HID 1.11 union TU_ATTR_PACKED { uint8_t byte; struct TU_ATTR_PACKED { uint8_t size : 2; uint8_t type : 2; uint8_t tag : 4; }; } header; tu_memclr(report_info_arr, arr_count*sizeof(tuh_hid_report_info_t)); uint8_t report_num = 0; tuh_hid_report_info_t* info = report_info_arr; // current parsed report count & size from descriptor // uint8_t ri_report_count = 0; // uint8_t ri_report_size = 0; uint8_t ri_collection_depth = 0; while(desc_len && report_num < arr_count) { header.byte = *desc_report++; desc_len--; uint8_t const tag = header.tag; uint8_t const type = header.type; uint8_t const size = header.size; uint8_t const data8 = desc_report[0]; TU_LOG2("tag = %d, type = %d, size = %d, data = ", tag, type, size); for(uint32_t i=0; iusage_page, desc_report, size); break; case RI_GLOBAL_LOGICAL_MIN : break; case RI_GLOBAL_LOGICAL_MAX : break; case RI_GLOBAL_PHYSICAL_MIN : break; case RI_GLOBAL_PHYSICAL_MAX : break; case RI_GLOBAL_REPORT_ID: info->report_id = data8; break; case RI_GLOBAL_REPORT_SIZE: // ri_report_size = data8; break; case RI_GLOBAL_REPORT_COUNT: // ri_report_count = data8; break; case RI_GLOBAL_UNIT_EXPONENT : break; case RI_GLOBAL_UNIT : break; case RI_GLOBAL_PUSH : break; case RI_GLOBAL_POP : break; default: break; } break; case RI_TYPE_LOCAL: switch(tag) { case RI_LOCAL_USAGE: // only take in account the "usage" before starting REPORT ID if ( ri_collection_depth == 0 ) info->usage = data8; break; case RI_LOCAL_USAGE_MIN : break; case RI_LOCAL_USAGE_MAX : break; case RI_LOCAL_DESIGNATOR_INDEX : break; case RI_LOCAL_DESIGNATOR_MIN : break; case RI_LOCAL_DESIGNATOR_MAX : break; case RI_LOCAL_STRING_INDEX : break; case RI_LOCAL_STRING_MIN : break; case RI_LOCAL_STRING_MAX : break; case RI_LOCAL_DELIMITER : break; default: break; } break; // error default: break; } desc_report += size; desc_len -= size; } for ( uint8_t i = 0; i < report_num; i++ ) { info = report_info_arr+i; TU_LOG2("%u: id = %u, usage_page = %u, usage = %u\r\n", i, info->report_id, info->usage_page, info->usage); } return report_num; } //--------------------------------------------------------------------+ // Helper //--------------------------------------------------------------------+ // Get Device by address TU_ATTR_ALWAYS_INLINE static inline hidh_device_t* get_dev(uint8_t dev_addr) { return &_hidh_dev[dev_addr-1]; } // Get Interface by instance number TU_ATTR_ALWAYS_INLINE static inline hidh_interface_t* get_instance(uint8_t dev_addr, uint8_t instance) { return &_hidh_dev[dev_addr-1].instances[instance]; } // Get instance ID by interface number static uint8_t get_instance_id_by_itfnum(uint8_t dev_addr, uint8_t itf) { for ( uint8_t inst = 0; inst < CFG_TUH_HID; inst++ ) { hidh_interface_t *hid = get_instance(dev_addr, inst); if ( (hid->itf_num == itf) && (hid->ep_in || hid->ep_out) ) return inst; } return 0xff; } // Get instance ID by endpoint address static uint8_t get_instance_id_by_epaddr(uint8_t dev_addr, uint8_t ep_addr) { for ( uint8_t inst = 0; inst < CFG_TUH_HID; inst++ ) { hidh_interface_t *hid = get_instance(dev_addr, inst); if ( (ep_addr == hid->ep_in) || ( ep_addr == hid->ep_out) ) return inst; } return 0xff; } #endif