#include "furi_hal_version.h" #include "furi_hal_usb_i.h" #include "furi_hal_usb.h" #include #include #include #include #include "usb.h" #define TAG "FuriHalUsb" #define USB_RECONNECT_DELAY 500 typedef enum { UsbApiEventTypeSetConfig, UsbApiEventTypeGetConfig, UsbApiEventTypeLock, UsbApiEventTypeUnlock, UsbApiEventTypeIsLocked, UsbApiEventTypeEnable, UsbApiEventTypeDisable, UsbApiEventTypeReinit, UsbApiEventTypeSetStateCallback, } UsbApiEventType; typedef struct { FuriHalUsbStateCallback callback; void* context; } UsbApiEventDataStateCallback; typedef struct { FuriHalUsbInterface* interface; void* context; } UsbApiEventDataInterface; typedef union { UsbApiEventDataStateCallback state_callback; UsbApiEventDataInterface interface; } UsbApiEventData; typedef union { bool bool_value; void* void_value; } UsbApiEventReturnData; typedef struct { FuriApiLock lock; UsbApiEventType type; UsbApiEventData data; UsbApiEventReturnData* return_data; } UsbApiEventMessage; typedef struct { FuriThread* thread; FuriMessageQueue* queue; bool enabled; bool connected; bool mode_lock; bool request_pending; FuriHalUsbInterface* interface; void* interface_context; FuriHalUsbStateCallback callback; void* callback_context; } UsbSrv; typedef enum { UsbEventReset = (1 << 0), UsbEventRequest = (1 << 1), UsbEventMessage = (1 << 2), } UsbEvent; #define USB_SRV_ALL_EVENTS (UsbEventReset | UsbEventRequest | UsbEventMessage) PLACE_IN_SECTION("MB_MEM2") static UsbSrv usb = {0}; static const struct usb_string_descriptor dev_lang_desc = USB_ARRAY_DESC(USB_LANGID_ENG_US); static uint32_t ubuf[0x20]; usbd_device udev; static int32_t furi_hal_usb_thread(void* context); static usbd_respond usb_descriptor_get(usbd_ctlreq* req, void** address, uint16_t* length); static void reset_evt(usbd_device* dev, uint8_t event, uint8_t ep); static void susp_evt(usbd_device* dev, uint8_t event, uint8_t ep); static void wkup_evt(usbd_device* dev, uint8_t event, uint8_t ep); /* Low-level init */ void furi_hal_usb_init(void) { LL_GPIO_InitTypeDef GPIO_InitStruct = {0}; LL_PWR_EnableVddUSB(); GPIO_InitStruct.Pin = LL_GPIO_PIN_11 | LL_GPIO_PIN_12; GPIO_InitStruct.Mode = LL_GPIO_MODE_ALTERNATE; GPIO_InitStruct.Speed = LL_GPIO_SPEED_FREQ_VERY_HIGH; GPIO_InitStruct.OutputType = LL_GPIO_OUTPUT_PUSHPULL; GPIO_InitStruct.Pull = LL_GPIO_PULL_NO; GPIO_InitStruct.Alternate = LL_GPIO_AF_10; LL_GPIO_Init(GPIOA, &GPIO_InitStruct); usbd_init(&udev, &usbd_hw, USB_EP0_SIZE, ubuf, sizeof(ubuf)); usbd_enable(&udev, true); usbd_reg_descr(&udev, usb_descriptor_get); usbd_reg_event(&udev, usbd_evt_susp, susp_evt); usbd_reg_event(&udev, usbd_evt_wkup, wkup_evt); // Reset callback will be enabled after first mode change to avoid getting false reset events usb.enabled = false; usb.interface = NULL; NVIC_SetPriority(USB_LP_IRQn, NVIC_EncodePriority(NVIC_GetPriorityGrouping(), 5, 0)); NVIC_SetPriority(USB_HP_IRQn, NVIC_EncodePriority(NVIC_GetPriorityGrouping(), 15, 0)); NVIC_EnableIRQ(USB_LP_IRQn); NVIC_EnableIRQ(USB_HP_IRQn); usb.queue = furi_message_queue_alloc(1, sizeof(UsbApiEventMessage)); usb.thread = furi_thread_alloc_ex("UsbDriver", 1024, furi_hal_usb_thread, NULL); furi_thread_mark_as_service(usb.thread); furi_thread_start(usb.thread); FURI_LOG_I(TAG, "Init OK"); } static void furi_hal_usb_send_message(UsbApiEventMessage* message) { furi_message_queue_put(usb.queue, message, FuriWaitForever); furi_thread_flags_set(furi_thread_get_id(usb.thread), UsbEventMessage); api_lock_wait_unlock_and_free(message->lock); } bool furi_hal_usb_set_config(FuriHalUsbInterface* new_if, void* ctx) { UsbApiEventReturnData return_data = { .bool_value = false, }; UsbApiEventMessage msg = { .lock = api_lock_alloc_locked(), .type = UsbApiEventTypeSetConfig, .data.interface = { .interface = new_if, .context = ctx, }, .return_data = &return_data, }; furi_hal_usb_send_message(&msg); return return_data.bool_value; } FuriHalUsbInterface* furi_hal_usb_get_config() { UsbApiEventReturnData return_data = { .void_value = NULL, }; UsbApiEventMessage msg = { .lock = api_lock_alloc_locked(), .type = UsbApiEventTypeGetConfig, .return_data = &return_data, }; furi_hal_usb_send_message(&msg); return return_data.void_value; } void furi_hal_usb_lock() { UsbApiEventMessage msg = { .lock = api_lock_alloc_locked(), .type = UsbApiEventTypeLock, }; furi_hal_usb_send_message(&msg); } void furi_hal_usb_unlock() { UsbApiEventMessage msg = { .lock = api_lock_alloc_locked(), .type = UsbApiEventTypeUnlock, }; furi_hal_usb_send_message(&msg); } bool furi_hal_usb_is_locked() { UsbApiEventReturnData return_data = { .bool_value = false, }; UsbApiEventMessage msg = { .lock = api_lock_alloc_locked(), .type = UsbApiEventTypeIsLocked, .return_data = &return_data, }; furi_hal_usb_send_message(&msg); return return_data.bool_value; } void furi_hal_usb_disable() { UsbApiEventMessage msg = { .lock = api_lock_alloc_locked(), .type = UsbApiEventTypeDisable, }; furi_hal_usb_send_message(&msg); } void furi_hal_usb_enable() { UsbApiEventMessage msg = { .lock = api_lock_alloc_locked(), .type = UsbApiEventTypeEnable, }; furi_hal_usb_send_message(&msg); } void furi_hal_usb_reinit() { UsbApiEventMessage msg = { .lock = api_lock_alloc_locked(), .type = UsbApiEventTypeReinit, }; furi_hal_usb_send_message(&msg); } void furi_hal_usb_set_state_callback(FuriHalUsbStateCallback cb, void* ctx) { UsbApiEventMessage msg = { .lock = api_lock_alloc_locked(), .type = UsbApiEventTypeSetStateCallback, .data.state_callback = { .callback = cb, .context = ctx, }, }; furi_hal_usb_send_message(&msg); } /* Get device / configuration descriptors */ static usbd_respond usb_descriptor_get(usbd_ctlreq* req, void** address, uint16_t* length) { const uint8_t dtype = req->wValue >> 8; const uint8_t dnumber = req->wValue & 0xFF; const void* desc; uint16_t len = 0; if(usb.interface == NULL) return usbd_fail; switch(dtype) { case USB_DTYPE_DEVICE: furi_thread_flags_set(furi_thread_get_id(usb.thread), UsbEventRequest); if(usb.callback != NULL) { usb.callback(FuriHalUsbStateEventDescriptorRequest, usb.callback_context); } desc = usb.interface->dev_descr; break; case USB_DTYPE_CONFIGURATION: desc = usb.interface->cfg_descr; len = ((struct usb_string_descriptor*)(usb.interface->cfg_descr))->wString[0]; break; case USB_DTYPE_STRING: if(dnumber == UsbDevLang) { desc = &dev_lang_desc; } else if((dnumber == UsbDevManuf) && (usb.interface->str_manuf_descr != NULL)) { desc = usb.interface->str_manuf_descr; } else if((dnumber == UsbDevProduct) && (usb.interface->str_prod_descr != NULL)) { desc = usb.interface->str_prod_descr; } else if((dnumber == UsbDevSerial) && (usb.interface->str_serial_descr != NULL)) { desc = usb.interface->str_serial_descr; } else return usbd_fail; break; default: return usbd_fail; } if(desc == NULL) return usbd_fail; if(len == 0) { len = ((struct usb_header_descriptor*)desc)->bLength; } *address = (void*)desc; *length = len; return usbd_ack; } static void reset_evt(usbd_device* dev, uint8_t event, uint8_t ep) { UNUSED(dev); UNUSED(event); UNUSED(ep); furi_thread_flags_set(furi_thread_get_id(usb.thread), UsbEventReset); if(usb.callback != NULL) { usb.callback(FuriHalUsbStateEventReset, usb.callback_context); } } static void susp_evt(usbd_device* dev, uint8_t event, uint8_t ep) { UNUSED(dev); UNUSED(event); UNUSED(ep); if((usb.interface != NULL) && (usb.connected == true)) { usb.connected = false; usb.interface->suspend(&udev); furi_hal_power_insomnia_exit(); } if(usb.callback != NULL) { usb.callback(FuriHalUsbStateEventSuspend, usb.callback_context); } } static void wkup_evt(usbd_device* dev, uint8_t event, uint8_t ep) { UNUSED(dev); UNUSED(event); UNUSED(ep); if((usb.interface != NULL) && (usb.connected == false)) { usb.connected = true; usb.interface->wakeup(&udev); furi_hal_power_insomnia_enter(); } if(usb.callback != NULL) { usb.callback(FuriHalUsbStateEventWakeup, usb.callback_context); } } static void usb_process_mode_start(FuriHalUsbInterface* interface, void* context) { if(usb.interface != NULL) { usb.interface->deinit(&udev); } __disable_irq(); usb.interface = interface; usb.interface_context = context; __enable_irq(); if(interface != NULL) { interface->init(&udev, interface, context); usbd_reg_event(&udev, usbd_evt_reset, reset_evt); FURI_LOG_I(TAG, "USB Mode change done"); usb.enabled = true; } } static void usb_process_mode_change(FuriHalUsbInterface* interface, void* context) { if(interface != usb.interface) { if(usb.enabled) { // Disable current interface susp_evt(&udev, 0, 0); usbd_connect(&udev, false); usb.enabled = false; furi_delay_ms(USB_RECONNECT_DELAY); } usb_process_mode_start(interface, context); } } static void usb_process_mode_reinit() { // Temporary disable callback to avoid getting false reset events usbd_reg_event(&udev, usbd_evt_reset, NULL); FURI_LOG_I(TAG, "USB Reinit"); susp_evt(&udev, 0, 0); usbd_connect(&udev, false); usb.enabled = false; usbd_enable(&udev, false); usbd_enable(&udev, true); furi_delay_ms(USB_RECONNECT_DELAY); usb_process_mode_start(usb.interface, usb.interface_context); } static bool usb_process_set_config(FuriHalUsbInterface* interface, void* context) { if(usb.mode_lock) { return false; } else { usb_process_mode_change(interface, context); return true; } } static void usb_process_enable(bool enable) { if(enable) { if((!usb.enabled) && (usb.interface != NULL)) { usbd_connect(&udev, true); usb.enabled = true; FURI_LOG_I(TAG, "USB Enable"); } } else { if(usb.enabled) { susp_evt(&udev, 0, 0); usbd_connect(&udev, false); usb.enabled = false; usb.request_pending = false; FURI_LOG_I(TAG, "USB Disable"); } } } static void usb_process_message(UsbApiEventMessage* message) { switch(message->type) { case UsbApiEventTypeSetConfig: message->return_data->bool_value = usb_process_set_config( message->data.interface.interface, message->data.interface.context); break; case UsbApiEventTypeGetConfig: message->return_data->void_value = usb.interface; break; case UsbApiEventTypeLock: FURI_LOG_I(TAG, "Mode lock"); usb.mode_lock = true; break; case UsbApiEventTypeUnlock: FURI_LOG_I(TAG, "Mode unlock"); usb.mode_lock = false; break; case UsbApiEventTypeIsLocked: message->return_data->bool_value = usb.mode_lock; break; case UsbApiEventTypeDisable: usb_process_enable(false); break; case UsbApiEventTypeEnable: usb_process_enable(true); break; case UsbApiEventTypeReinit: usb_process_mode_reinit(); break; case UsbApiEventTypeSetStateCallback: usb.callback = message->data.state_callback.callback; usb.callback_context = message->data.state_callback.context; break; } api_lock_unlock(message->lock); } static int32_t furi_hal_usb_thread(void* context) { UNUSED(context); uint8_t usb_wait_time = 0; if(furi_message_queue_get_count(usb.queue) > 0) { furi_thread_flags_set(furi_thread_get_id(usb.thread), UsbEventMessage); } while(true) { uint32_t flags = furi_thread_flags_wait(USB_SRV_ALL_EVENTS, FuriFlagWaitAny, 500); { UsbApiEventMessage message; if(furi_message_queue_get(usb.queue, &message, 0) == FuriStatusOk) { usb_process_message(&message); } } if((flags & FuriFlagError) == 0) { if(flags & UsbEventReset) { if(usb.enabled) { usb.request_pending = true; usb_wait_time = 0; } } if(flags & UsbEventRequest) { usb.request_pending = false; } } else if(usb.request_pending) { usb_wait_time++; if(usb_wait_time > 4) { usb_process_mode_reinit(); usb.request_pending = false; } } } return 0; }