/* * This file is part of the Micro Python project, http://micropython.org/ * * The MIT License (MIT) * * Copyright (c) 2017 Scott Shawcroft for Adafruit Industries * * 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 "usb.h" #include // We must include this early because it sets values used in the ASF4 includes // below. #include "py/mpconfig.h" #include "hal/include/hal_gpio.h" #include "usb/class/cdc/device/cdcdf_acm.h" // #include "hiddf_mouse.h" // #include "hiddf_keyboard.h" #include "usb/class/hid/device/hiddf_generic.h" #include "usb/class/composite/device/composite_desc.h" #include "peripheral_clk_config.h" #include "hpl/pm/hpl_pm_base.h" #include "hpl/gclk/hpl_gclk_base.h" #include "lib/utils/interrupt_char.h" #include "reset.h" #include "supervisor/shared/autoreload.h" // Store received characters on our own so that we can filter control characters // and act immediately on CTRL-C for example. // Receive buffer static uint8_t usb_rx_buf[USB_RX_BUF_SIZE]; // Receive buffer head static volatile uint8_t usb_rx_buf_head; // Receive buffer tail static volatile uint8_t usb_rx_buf_tail; // Number of bytes in receive buffer volatile uint8_t usb_rx_count; volatile bool mp_cdc_enabled = false; static uint8_t multi_desc_bytes[] = { /* Device descriptors and Configuration descriptors list. */ COMPOSITE_DESCES_LS_FS, }; static struct usbd_descriptors multi_desc = {multi_desc_bytes, multi_desc_bytes + sizeof(multi_desc_bytes)}; /** Ctrl endpoint buffer */ static uint8_t ctrl_buffer[64]; static void init_hardware(void) { #ifdef SAMD21 _pm_enable_bus_clock(PM_BUS_APBB, USB); _pm_enable_bus_clock(PM_BUS_AHB, USB); _gclk_enable_channel(USB_GCLK_ID, GCLK_CLKCTRL_GEN_GCLK0_Val); #endif #ifdef SAMD51 hri_gclk_write_PCHCTRL_reg(GCLK, USB_GCLK_ID, CONF_GCLK_USB_SRC | GCLK_PCHCTRL_CHEN); hri_mclk_set_AHBMASK_USB_bit(MCLK); hri_mclk_set_APBBMASK_USB_bit(MCLK); #endif usb_d_init(); gpio_set_pin_direction(PIN_PA24, GPIO_DIRECTION_OUT); gpio_set_pin_level(PIN_PA24, false); gpio_set_pin_pull_mode(PIN_PA24, GPIO_PULL_OFF); gpio_set_pin_direction(PIN_PA25, GPIO_DIRECTION_OUT); gpio_set_pin_level(PIN_PA25, false); gpio_set_pin_pull_mode(PIN_PA25, GPIO_PULL_OFF); #ifdef SAMD21 gpio_set_pin_function(PIN_PA24, PINMUX_PA24G_USB_DM); gpio_set_pin_function(PIN_PA25, PINMUX_PA25G_USB_DP); #endif #ifdef SAMD51 gpio_set_pin_function(PIN_PA24, PINMUX_PA24H_USB_DM); gpio_set_pin_function(PIN_PA25, PINMUX_PA25H_USB_DP); #endif } extern uint32_t *_usb_ep1_cache; static bool usb_device_cb_bulk_out(const uint8_t ep, const enum usb_xfer_code rc, const uint32_t count) { volatile hal_atomic_t flags; atomic_enter_critical(&flags); // If our buffer can't fit the data received, then error out. if (count > (uint8_t) (USB_RX_BUF_SIZE - usb_rx_count)) { atomic_leave_critical(&flags); return true; } // We read the data but ignore it later. The data itself isn't correct but // it does mark it as read so further data is received ok. // TODO(tannewt): Get ASF4 fixed so the data is correct and then stop using // _usb_ep1_cache directly below. uint8_t buf[count]; int32_t result = cdcdf_acm_read(buf, count); if (result != ERR_NONE) { return true; } for (uint16_t i = 0; i < count; i++) { uint8_t c = ((uint8_t*) &_usb_ep1_cache)[i]; if (c == mp_interrupt_char) { atomic_leave_critical(&flags); mp_keyboard_interrupt(); // Don't put the interrupt into the buffer, just continue. return false; } else { // The count of characters present in receive buffer is // incremented. usb_rx_count++; usb_rx_buf[usb_rx_buf_tail] = c; usb_rx_buf_tail++; if (usb_rx_buf_tail == USB_RX_BUF_SIZE) { // Reached the end of buffer, revert back to beginning of // buffer. usb_rx_buf_tail = 0x00; } } } atomic_leave_critical(&flags); /* No error. */ return false; } static bool usb_device_cb_bulk_in(const uint8_t ep, const enum usb_xfer_code rc, const uint32_t count) { /* No error. */ return false; } volatile bool reset_on_disconnect = false; static bool usb_device_cb_state_c(usb_cdc_control_signal_t state) { if (state.rs232.DTR) { } else if (!state.rs232.DTR && reset_on_disconnect) { reset_to_bootloader(); } /* No error. */ return false; } static bool usb_device_cb_line_coding_c(const usb_cdc_line_coding_t* coding) { reset_on_disconnect = coding->dwDTERate == 1200; /* Ok to change. */ return true; } void init_usb(void) { init_hardware(); usbdc_init(ctrl_buffer); /* usbdc_register_funcion inside */ cdcdf_acm_init(); // hiddf_mouse_init(); // hiddf_keyboard_init(); int32_t result = usbdc_start(&multi_desc); while (result != ERR_NONE) {} usbdc_attach(); } static inline bool cdc_enabled(void) { if (mp_cdc_enabled) { return true; } if (!cdcdf_acm_is_enabled()) { return false; } cdcdf_acm_register_callback(CDCDF_ACM_CB_READ, (FUNC_PTR)usb_device_cb_bulk_out); cdcdf_acm_register_callback(CDCDF_ACM_CB_WRITE, (FUNC_PTR)usb_device_cb_bulk_in); cdcdf_acm_register_callback(CDCDF_ACM_CB_STATE_C, (FUNC_PTR)usb_device_cb_state_c); cdcdf_acm_register_callback(CDCDF_ACM_CB_LINE_CODING_C, (FUNC_PTR)usb_device_cb_line_coding_c); mp_cdc_enabled = true; // Ignored read. uint8_t buf[64]; cdcdf_acm_read(buf, 64); return true; } bool usb_bytes_available(void) { if (usb_rx_count == 0) { cdc_enabled(); return false; } return usb_rx_count > 0; } int usb_read(void) { if (!cdc_enabled() || usb_rx_count == 0) { return 0; } // Disable autoreload if someone is using the repl. // TODO(tannewt): Check that we're actually in the REPL. It could be an // input() call from a script. autoreload_disable(); // Copy from head. int data; CRITICAL_SECTION_ENTER(); data = usb_rx_buf[usb_rx_buf_head]; usb_rx_buf_head++; usb_rx_count--; if ((USB_RX_BUF_SIZE) == usb_rx_buf_head) { usb_rx_buf_head = 0; } CRITICAL_SECTION_LEAVE(); //usb_write((uint8_t *)&data, 1); return data; } void usb_write(const char* buffer, uint32_t len) { if (!cdc_enabled()) { return; } int32_t result = cdcdf_acm_write((uint8_t *)buffer, len); while (result == USB_BUSY) { #ifdef MICROPY_VM_HOOK_LOOP MICROPY_VM_HOOK_LOOP #endif result = cdcdf_acm_write((uint8_t *)buffer, len); } while (result != ERR_NONE) {} } bool usb_connected(void) { return cdc_enabled(); }