// Copyright 2015-2024 Espressif Systems (Shanghai) PTE LTD // // Licensed under the Apache License, Version 2.0 (the "License"); // you may not use this file except in compliance with the License. // You may obtain a copy of the License at // // http://www.apache.org/licenses/LICENSE-2.0 // // Unless required by applicable law or agreed to in writing, software // distributed under the License is distributed on an "AS IS" BASIS, // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. // See the License for the specific language governing permissions and // limitations under the License. #include "USB.h" #if SOC_USB_SERIAL_JTAG_SUPPORTED #include "esp32-hal.h" #include "esp32-hal-periman.h" #include "HWCDC.h" #include "freertos/FreeRTOS.h" #include "freertos/semphr.h" #include "freertos/queue.h" #include "freertos/ringbuf.h" #include "esp_intr_alloc.h" #include "soc/periph_defs.h" #include "soc/io_mux_reg.h" #include "soc/usb_serial_jtag_struct.h" #pragma GCC diagnostic ignored "-Wvolatile" #include "hal/usb_serial_jtag_ll.h" #pragma GCC diagnostic warning "-Wvolatile" #include "rom/ets_sys.h" #include "driver/usb_serial_jtag.h" ESP_EVENT_DEFINE_BASE(ARDUINO_HW_CDC_EVENTS); static RingbufHandle_t tx_ring_buf = NULL; static QueueHandle_t rx_queue = NULL; static uint8_t rx_data_buf[64] = {0}; static intr_handle_t intr_handle = NULL; static SemaphoreHandle_t tx_lock = NULL; static volatile bool connected = false; // timeout has no effect when USB CDC is unplugged static uint32_t requested_tx_timeout_ms = 100; static esp_event_loop_handle_t arduino_hw_cdc_event_loop_handle = NULL; static esp_err_t arduino_hw_cdc_event_post(esp_event_base_t event_base, int32_t event_id, void *event_data, size_t event_data_size, BaseType_t *task_unblocked){ if(arduino_hw_cdc_event_loop_handle == NULL){ return ESP_FAIL; } return esp_event_isr_post_to(arduino_hw_cdc_event_loop_handle, event_base, event_id, event_data, event_data_size, task_unblocked); } static esp_err_t arduino_hw_cdc_event_handler_register_with(esp_event_base_t event_base, int32_t event_id, esp_event_handler_t event_handler, void *event_handler_arg){ if (!arduino_hw_cdc_event_loop_handle) { esp_event_loop_args_t event_task_args = { .queue_size = 5, .task_name = "arduino_hw_cdc_events", .task_priority = 5, .task_stack_size = 2048, .task_core_id = tskNO_AFFINITY }; if (esp_event_loop_create(&event_task_args, &arduino_hw_cdc_event_loop_handle) != ESP_OK) { log_e("esp_event_loop_create failed"); } } if(arduino_hw_cdc_event_loop_handle == NULL){ return ESP_FAIL; } return esp_event_handler_register_with(arduino_hw_cdc_event_loop_handle, event_base, event_id, event_handler, event_handler_arg); } static void hw_cdc_isr_handler(void *arg) { portBASE_TYPE xTaskWoken = 0; uint32_t usbjtag_intr_status = 0; arduino_hw_cdc_event_data_t event = {0}; usbjtag_intr_status = usb_serial_jtag_ll_get_intsts_mask(); if (usbjtag_intr_status & USB_SERIAL_JTAG_INTR_SERIAL_IN_EMPTY) { // Interrupt tells us the host picked up the data we sent. if(!usb_serial_jtag_is_connected()) { connected = false; usb_serial_jtag_ll_clr_intsts_mask(USB_SERIAL_JTAG_INTR_SERIAL_IN_EMPTY); // USB is unplugged, nothing to be done here return; } else { connected = true; } if (tx_ring_buf != NULL && usb_serial_jtag_ll_txfifo_writable() == 1) { // We disable the interrupt here so that the interrupt won't be triggered if there is no data to send. usb_serial_jtag_ll_disable_intr_mask(USB_SERIAL_JTAG_INTR_SERIAL_IN_EMPTY); size_t queued_size; uint8_t *queued_buff = (uint8_t *)xRingbufferReceiveUpToFromISR(tx_ring_buf, &queued_size, 64); // If the hardware fifo is avaliable, write in it. Otherwise, do nothing. if (queued_buff != NULL) { //Although tx_queued_bytes may be larger than 0. We may have interrupt before xRingbufferSend() was called. //Copy the queued buffer into the TX FIFO usb_serial_jtag_ll_clr_intsts_mask(USB_SERIAL_JTAG_INTR_SERIAL_IN_EMPTY); usb_serial_jtag_ll_write_txfifo(queued_buff, queued_size); usb_serial_jtag_ll_txfifo_flush(); vRingbufferReturnItemFromISR(tx_ring_buf, queued_buff, &xTaskWoken); if(connected) usb_serial_jtag_ll_ena_intr_mask(USB_SERIAL_JTAG_INTR_SERIAL_IN_EMPTY); //send event? //ets_printf("TX:%u\n", queued_size); event.tx.len = queued_size; arduino_hw_cdc_event_post(ARDUINO_HW_CDC_EVENTS, ARDUINO_HW_CDC_TX_EVENT, &event, sizeof(arduino_hw_cdc_event_data_t), &xTaskWoken); } } else { usb_serial_jtag_ll_clr_intsts_mask(USB_SERIAL_JTAG_INTR_SERIAL_IN_EMPTY); } } if (usbjtag_intr_status & USB_SERIAL_JTAG_INTR_SERIAL_OUT_RECV_PKT) { // read rx buffer(max length is 64), and send avaliable data to ringbuffer. // Ensure the rx buffer size is larger than RX_MAX_SIZE. usb_serial_jtag_ll_clr_intsts_mask(USB_SERIAL_JTAG_INTR_SERIAL_OUT_RECV_PKT); uint32_t rx_fifo_len = usb_serial_jtag_ll_read_rxfifo(rx_data_buf, 64); uint32_t i=0; for(i=0; i just when USB is plugged and CDC is connected. HWCDC::operator bool() const { return HWCDC::isCDC_Connected(); } void HWCDC::onEvent(esp_event_handler_t callback){ onEvent(ARDUINO_HW_CDC_ANY_EVENT, callback); } void HWCDC::onEvent(arduino_hw_cdc_event_t event, esp_event_handler_t callback){ arduino_hw_cdc_event_handler_register_with(ARDUINO_HW_CDC_EVENTS, event, callback, this); } bool HWCDC::deinit(void * busptr) { // avoid any recursion issue with Peripheral Manager perimanSetPinBus() call static bool running = false; if (running) return true; running = true; // Setting USB D+ D- pins bool retCode = true; retCode &= perimanClearPinBus(USB_DM_GPIO_NUM); retCode &= perimanClearPinBus(USB_DP_GPIO_NUM); if (retCode) { // Force the host to re-enumerate (BUS_RESET) pinMode(USB_DM_GPIO_NUM, OUTPUT_OPEN_DRAIN); pinMode(USB_DP_GPIO_NUM, OUTPUT_OPEN_DRAIN); digitalWrite(USB_DM_GPIO_NUM, LOW); digitalWrite(USB_DP_GPIO_NUM, LOW); } // release the flag running = false; return retCode; } void HWCDC::begin(unsigned long baud) { if(tx_lock == NULL) { tx_lock = xSemaphoreCreateMutex(); } //RX Buffer default has 256 bytes if not preset if(rx_queue == NULL) { if (!setRxBufferSize(256)) { log_e("HW CDC RX Buffer error"); } } //TX Buffer default has 16 bytes if not preset if (tx_ring_buf == NULL) { if (!setTxBufferSize(16)) { log_e("HW CDC TX Buffer error"); } } // the HW Serial pins needs to be first deinited in order to allow `if(Serial)` to work :-( deinit(NULL); delay(10); // USB Host has to enumerate it again // Peripheral Manager setting for USB D+ D- pins uint8_t pin = USB_DM_GPIO_NUM; if(!perimanSetPinBus(pin, ESP32_BUS_TYPE_USB_DM, (void *) this, -1, -1)) goto err; pin = USB_DP_GPIO_NUM; if(!perimanSetPinBus(pin, ESP32_BUS_TYPE_USB_DP, (void *) this, -1, -1)) goto err; // Configure PHY // USB_Serial_JTAG use internal PHY USB_SERIAL_JTAG.conf0.phy_sel = 0; // Disable software control USB D+ D- pullup pulldown (Device FS: dp_pullup = 1) USB_SERIAL_JTAG.conf0.pad_pull_override = 0; // Enable USB D+ pullup USB_SERIAL_JTAG.conf0.dp_pullup = 1; // Enable USB pad function USB_SERIAL_JTAG.conf0.usb_pad_enable = 1; usb_serial_jtag_ll_disable_intr_mask(USB_SERIAL_JTAG_LL_INTR_MASK); usb_serial_jtag_ll_ena_intr_mask(USB_SERIAL_JTAG_INTR_SERIAL_IN_EMPTY | USB_SERIAL_JTAG_INTR_SERIAL_OUT_RECV_PKT | USB_SERIAL_JTAG_INTR_BUS_RESET); if(!intr_handle && esp_intr_alloc(ETS_USB_SERIAL_JTAG_INTR_SOURCE, 0, hw_cdc_isr_handler, NULL, &intr_handle) != ESP_OK){ isr_log_e("HW USB CDC failed to init interrupts"); end(); return; } return; err: log_e("Serial JTAG Pin %u can't be set into Peripheral Manager.", pin); end(); } void HWCDC::end() { //Disable/clear/free tx/rx interrupt. usb_serial_jtag_ll_disable_intr_mask(USB_SERIAL_JTAG_LL_INTR_MASK); usb_serial_jtag_ll_clr_intsts_mask(USB_SERIAL_JTAG_LL_INTR_MASK); esp_intr_free(intr_handle); intr_handle = NULL; if(tx_lock != NULL) { vSemaphoreDelete(tx_lock); tx_lock = NULL; } setRxBufferSize(0); setTxBufferSize(0); if (arduino_hw_cdc_event_loop_handle) { esp_event_loop_delete(arduino_hw_cdc_event_loop_handle); arduino_hw_cdc_event_loop_handle = NULL; } HWCDC::deinit(this); setDebugOutput(false); connected = false; } void HWCDC::setTxTimeoutMs(uint32_t timeout){ requested_tx_timeout_ms = timeout; } /* * WRITING */ size_t HWCDC::setTxBufferSize(size_t tx_queue_len){ if(tx_ring_buf){ vRingbufferDelete(tx_ring_buf); tx_ring_buf = NULL; } if(!tx_queue_len){ return 0; } tx_ring_buf = xRingbufferCreate(tx_queue_len, RINGBUF_TYPE_BYTEBUF); if(!tx_ring_buf){ return 0; } return tx_queue_len; } int HWCDC::availableForWrite(void) { uint32_t tx_timeout_ms = 0; if(tx_ring_buf == NULL || tx_lock == NULL){ return 0; } if(HWCDC::isCDC_Connected()) { tx_timeout_ms = requested_tx_timeout_ms; } if(xSemaphoreTake(tx_lock, tx_timeout_ms / portTICK_PERIOD_MS) != pdPASS){ return 0; } size_t a = xRingbufferGetCurFreeSize(tx_ring_buf); xSemaphoreGive(tx_lock); return a; } static void flushTXBuffer() { if (!tx_ring_buf) return; UBaseType_t uxItemsWaiting = 0; vRingbufferGetInfo(tx_ring_buf, NULL, NULL, NULL, NULL, &uxItemsWaiting); size_t queued_size = 0; uint8_t *queued_buff = (uint8_t *)xRingbufferReceiveUpTo(tx_ring_buf, &queued_size, 0, uxItemsWaiting); if (queued_size && queued_buff != NULL) { vRingbufferReturnItem(tx_ring_buf, (void *)queued_buff); } // flushes CDC FIFO usb_serial_jtag_ll_txfifo_flush(); } size_t HWCDC::write(const uint8_t *buffer, size_t size) { uint32_t tx_timeout_ms = 0; if(buffer == NULL || size == 0 || tx_ring_buf == NULL || tx_lock == NULL){ return 0; } if(HWCDC::isCDC_Connected()) { tx_timeout_ms = requested_tx_timeout_ms; } else { connected = false; } if(xSemaphoreTake(tx_lock, tx_timeout_ms / portTICK_PERIOD_MS) != pdPASS){ return 0; } size_t max_size = xRingbufferGetMaxItemSize(tx_ring_buf); size_t space = xRingbufferGetCurFreeSize(tx_ring_buf); size_t to_send = size, so_far = 0; if(space > size){ space = size; } // Non-Blocking method, Sending data to ringbuffer, and handle the data in ISR. if(xRingbufferSend(tx_ring_buf, (void*) (buffer), space, 0) != pdTRUE){ size = 0; } else { to_send -= space; so_far += space; // Now trigger the ISR to read data from the ring buffer. usb_serial_jtag_ll_txfifo_flush(); if(connected) usb_serial_jtag_ll_ena_intr_mask(USB_SERIAL_JTAG_INTR_SERIAL_IN_EMPTY); while(to_send){ if(max_size > to_send){ max_size = to_send; } // Blocking method, Sending data to ringbuffer, and handle the data in ISR. if(xRingbufferSend(tx_ring_buf, (void*) (buffer+so_far), max_size, tx_timeout_ms / portTICK_PERIOD_MS) != pdTRUE){ size = so_far; break; } so_far += max_size; to_send -= max_size; // Now trigger the ISR to read data from the ring buffer. usb_serial_jtag_ll_txfifo_flush(); if(connected) usb_serial_jtag_ll_ena_intr_mask(USB_SERIAL_JTAG_INTR_SERIAL_IN_EMPTY); } } // CDC is diconnected ==> flush all data from TX buffer if(to_send && !usb_serial_jtag_ll_txfifo_writable()) { connected = false; flushTXBuffer(); } xSemaphoreGive(tx_lock); return size; } size_t HWCDC::write(uint8_t c) { return write(&c, 1); } void HWCDC::flush(void) { uint32_t tx_timeout_ms = 0; if(tx_ring_buf == NULL || tx_lock == NULL){ return; } if(HWCDC::isCDC_Connected()) { tx_timeout_ms = requested_tx_timeout_ms; } else { connected = false; } if(xSemaphoreTake(tx_lock, tx_timeout_ms / portTICK_PERIOD_MS) != pdPASS){ return; } UBaseType_t uxItemsWaiting = 0; vRingbufferGetInfo(tx_ring_buf, NULL, NULL, NULL, NULL, &uxItemsWaiting); if(uxItemsWaiting){ // Now trigger the ISR to read data from the ring buffer. usb_serial_jtag_ll_txfifo_flush(); if(connected) usb_serial_jtag_ll_ena_intr_mask(USB_SERIAL_JTAG_INTR_SERIAL_IN_EMPTY); } uint8_t tries = 3; while(tries && uxItemsWaiting){ delay(5); UBaseType_t lastUxItemsWaiting = uxItemsWaiting; vRingbufferGetInfo(tx_ring_buf, NULL, NULL, NULL, NULL, &uxItemsWaiting); if (lastUxItemsWaiting == uxItemsWaiting) tries--; } if (tries == 0) { // CDC isn't connected anymore... connected = false; flushTXBuffer(); } xSemaphoreGive(tx_lock); } /* * READING */ size_t HWCDC::setRxBufferSize(size_t rx_queue_len){ if(rx_queue){ vQueueDelete(rx_queue); rx_queue = NULL; } if(!rx_queue_len){ return 0; } rx_queue = xQueueCreate(rx_queue_len, sizeof(uint8_t)); if(!rx_queue){ return 0; } return rx_queue_len; } int HWCDC::available(void) { if(rx_queue == NULL){ return -1; } return uxQueueMessagesWaiting(rx_queue); } int HWCDC::peek(void) { if(rx_queue == NULL){ return -1; } uint8_t c; if(xQueuePeek(rx_queue, &c, 0)) { return c; } return -1; } int HWCDC::read(void) { if(rx_queue == NULL){ return -1; } uint8_t c = 0; if(xQueueReceive(rx_queue, &c, 0)) { return c; } return -1; } size_t HWCDC::read(uint8_t *buffer, size_t size) { if(rx_queue == NULL){ return -1; } uint8_t c = 0; size_t count = 0; while(count < size && xQueueReceive(rx_queue, &c, 0)){ buffer[count++] = c; } return count; } /* * DEBUG */ void HWCDC::setDebugOutput(bool en) { if(en) { uartSetDebug(NULL); ets_install_putc1((void (*)(char)) &cdc0_write_char); } else { ets_install_putc1(NULL); } } #if ARDUINO_USB_MODE && ARDUINO_USB_CDC_ON_BOOT // Hardware JTAG CDC selected // USBSerial is always available to be used HWCDC HWCDCSerial; #endif #endif /* SOC_USB_SERIAL_JTAG_SUPPORTED */