b6f1eebab3
The new sequence is as follows: * Solid blue during the boot/settings script. * Solid green during the main/code script. * After main while waiting to enter repl or reset: * Fading green once main is done successfully. * On error produce a series of flashes: * Long flash color of script. * Long flash color of error: * Green = IndentationError * Cyan = SyntaxError * White = NameError * Orange = OSError * Yellow = Other error * Line number of the exception by digit. Number of flashes represents value. * Thousands = White * Hundreds = Blue * Tens = Yellow * Ones = Cyan * Off for a period and then repeats. At any point a write to the flash storage will flicker red. Fixes #63
271 lines
7.8 KiB
C
271 lines
7.8 KiB
C
#include <string.h>
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#include "autoreset.h"
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#include "compiler.h"
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#include "asf/common/services/sleepmgr/sleepmgr.h"
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#include "asf/common/services/usb/class/cdc/device/udi_cdc.h"
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#include "asf/common2/services/delay/delay.h"
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#include "asf/sam0/drivers/port/port.h"
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#include "asf/sam0/drivers/sercom/usart/usart.h"
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#include "lib/mp-readline/readline.h"
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#include "py/mphal.h"
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#include "py/mpstate.h"
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#include "py/smallint.h"
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#include "shared-bindings/time/__init__.h"
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#include "mpconfigboard.h"
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#include "mphalport.h"
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// Store received characters on our own so that we can filter control characters
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// and act immediately on CTRL-C for example.
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// This is adapted from asf/thirdparty/wireless/addons/sio2host
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// Receive buffer
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static uint8_t usb_rx_buf[USB_RX_BUF_SIZE];
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// Receive buffer head
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static volatile uint8_t usb_rx_buf_head;
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// Receive buffer tail
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static volatile uint8_t usb_rx_buf_tail;
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// Number of bytes in receive buffer
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volatile uint8_t usb_rx_count;
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volatile bool mp_cdc_enabled = false;
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void mp_keyboard_interrupt(void);
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int interrupt_char;
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extern struct usart_module usart_instance;
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static volatile bool mp_msc_enabled = false;
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bool mp_msc_enable()
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{
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mp_msc_enabled = true;
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return true;
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}
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void mp_msc_disable()
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{
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mp_msc_enabled = false;
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}
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bool mp_cdc_enable(uint8_t port)
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{
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mp_cdc_enabled = false;
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return true;
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}
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void mp_cdc_disable(uint8_t port)
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{
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mp_cdc_enabled = false;
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}
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void usb_dtr_notify(uint8_t port, bool set) {
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mp_cdc_enabled = set;
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}
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void usb_rts_notify(uint8_t port, bool set) {
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return;
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}
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void usb_rx_notify(void)
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{
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irqflags_t flags;
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if (mp_cdc_enabled) {
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while (udi_cdc_is_rx_ready()) {
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uint8_t c;
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// Introduce a critical section to avoid buffer corruption. We use
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// cpu_irq_save instead of cpu_irq_disable because we don't know the
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// current state of IRQs. They may have been turned off already and
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// we don't want to accidentally turn them back on.
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flags = cpu_irq_save();
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// If our buffer is full, then don't get another character otherwise
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// we'll lose a previous character.
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if (usb_rx_count >= USB_RX_BUF_SIZE) {
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cpu_irq_restore(flags);
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break;
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}
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uint8_t current_tail = usb_rx_buf_tail;
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// Pretend we've received a character so that any nested calls to
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// this function have to consider the spot we've reserved.
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if ((USB_RX_BUF_SIZE - 1) == usb_rx_buf_tail) {
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// Reached the end of buffer, revert back to beginning of
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// buffer.
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usb_rx_buf_tail = 0x00;
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} else {
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usb_rx_buf_tail++;
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}
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// The count of characters present in receive buffer is
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// incremented.
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usb_rx_count++;
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// WARNING(tannewt): This call can call us back with the next
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// character!
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c = udi_cdc_getc();
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if (c == interrupt_char) {
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// We consumed a character rather than adding it to the rx
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// buffer so undo the modifications we made to count and the
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// tail.
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usb_rx_count--;
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usb_rx_buf_tail = current_tail;
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cpu_irq_restore(flags);
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mp_keyboard_interrupt();
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// Don't put the interrupt into the buffer, just continue.
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continue;
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}
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// We put the next character where we expected regardless of whether
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// the next character was already loaded in the buffer.
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usb_rx_buf[current_tail] = c;
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cpu_irq_restore(flags);
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}
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}
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}
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int receive_usb(void) {
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if (usb_rx_count == 0) {
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return 0;
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}
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// Disable autoreset if someone is using the repl.
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autoreset_disable();
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// Copy from head.
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cpu_irq_disable();
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int data = usb_rx_buf[usb_rx_buf_head];
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usb_rx_buf_head++;
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usb_rx_count--;
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if ((USB_RX_BUF_SIZE) == usb_rx_buf_head) {
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usb_rx_buf_head = 0;
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}
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cpu_irq_enable();
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// Call usb_rx_notify if we just emptied a spot in the buffer.
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if (usb_rx_count == USB_RX_BUF_SIZE - 1) {
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usb_rx_notify();
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}
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return data;
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}
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int mp_hal_stdin_rx_chr(void) {
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for (;;) {
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#ifdef MICROPY_VM_HOOK_LOOP
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MICROPY_VM_HOOK_LOOP
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#endif
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#ifdef USB_REPL
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if (reset_next_character) {
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return CHAR_CTRL_D;
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}
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if (usb_rx_count > 0) {
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#ifdef MICROPY_HW_LED_RX
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port_pin_toggle_output_level(MICROPY_HW_LED_RX);
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#endif
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return receive_usb();
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}
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#endif
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#ifdef UART_REPL
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uint16_t temp;
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if (usart_read_wait(&usart_instance, &temp) == STATUS_OK) {
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#ifdef MICROPY_HW_LED_RX
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port_pin_toggle_output_level(MICROPY_HW_LED_RX);
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#endif
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return temp;
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}
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#endif
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// TODO(tannewt): Switch to callback/interrupt based UART so it can work
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// with the sleepmgr.
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sleepmgr_enter_sleep();
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}
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}
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void mp_hal_stdout_tx_strn(const char *str, size_t len) {
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#ifdef MICROPY_HW_LED_TX
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port_pin_toggle_output_level(MICROPY_HW_LED_TX);
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#endif
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#ifdef UART_REPL
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usart_write_buffer_wait(&usart_instance, (uint8_t*) str, len);
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#endif
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#ifdef USB_REPL
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// Always make sure there is enough room in the usb buffer for the outgoing
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// string. If there isn't we risk getting caught in a loop within the usb
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// code as it tries to send all the characters it can't buffer.
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uint32_t start = 0;
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uint64_t start_tick = common_hal_time_monotonic();
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uint64_t duration = 0;
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if (mp_cdc_enabled) {
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while (start < len && duration < 10) {
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uint8_t buffer_space = udi_cdc_get_free_tx_buffer();
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uint8_t transmit = min(len - start, buffer_space);
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if (transmit > 0) {
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if (udi_cdc_write_buf(str + start, transmit) > 0) {
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// It didn't transmit successfully so give up.
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break;
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}
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}
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start += transmit;
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#ifdef MICROPY_VM_HOOK_LOOP
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MICROPY_VM_HOOK_LOOP
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#endif
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duration = (common_hal_time_monotonic() - start_tick);
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}
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}
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#endif
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}
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extern int interrupt_char;
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void mp_hal_set_interrupt_char(int c) {
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if (c != -1) {
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mp_obj_exception_clear_traceback(MP_STATE_PORT(mp_kbd_exception));
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}
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interrupt_char = c;
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}
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void mp_hal_delay_ms(mp_uint_t delay) {
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// If mass storage is enabled measure the time ourselves and run any mass
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// storage transactions in the meantime.
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// TODO(tannewt): Break out of this delay on KeyboardInterrupt too.
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if (mp_msc_enabled) {
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uint64_t start_tick = common_hal_time_monotonic();
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uint64_t duration = 0;
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while (duration < delay) {
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#ifdef MICROPY_VM_HOOK_LOOP
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MICROPY_VM_HOOK_LOOP
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#endif
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// Check to see if we've been CTRL-Ced by autoreset or the user.
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if(MP_STATE_VM(mp_pending_exception) == MP_STATE_PORT(mp_kbd_exception)) {
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break;
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}
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duration = (common_hal_time_monotonic() - start_tick);
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}
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} else {
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delay_ms(delay);
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}
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}
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void mp_hal_delay_us(mp_uint_t delay) {
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delay_us(delay);
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}
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// Interrupt flags that will be saved and restored during disable/Enable
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// interrupt functions below.
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static irqflags_t irq_flags;
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void mp_hal_disable_all_interrupts(void) {
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// Disable all interrupt sources for timing critical sections.
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// Disable ASF-based interrupts.
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irq_flags = cpu_irq_save();
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}
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void mp_hal_enable_all_interrupts(void) {
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// Enable all interrupt sources after timing critical sections.
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// Restore ASF-based interrupts.
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cpu_irq_restore(irq_flags);
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}
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