kopia lustrzana https://github.com/espressif/esp-idf
195 wiersze
8.9 KiB
Python
195 wiersze
8.9 KiB
Python
# SPDX-FileCopyrightText: 2015-2021 Espressif Systems (Shanghai) CO LTD
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# SPDX-License-Identifier: Apache-2.0
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import os
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import queue # noqa: F401
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import re
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import subprocess
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import time
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from typing import Callable, Optional
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import serial # noqa: F401
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from serial.tools import miniterm # noqa: F401
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from .chip_specific_config import get_chip_config
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from .console_parser import ConsoleParser, prompt_next_action # noqa: F401
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from .console_reader import ConsoleReader # noqa: F401
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from .constants import (CMD_APP_FLASH, CMD_ENTER_BOOT, CMD_MAKE, CMD_OUTPUT_TOGGLE, CMD_RESET, CMD_STOP,
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CMD_TOGGLE_LOGGING, CMD_TOGGLE_TIMESTAMPS, PANIC_DECODE_DISABLE, PANIC_END, PANIC_IDLE,
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PANIC_READING, PANIC_STACK_DUMP, PANIC_START)
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from .coredump import CoreDump
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from .exceptions import SerialStopException
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from .gdbhelper import GDBHelper
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from .line_matcher import LineMatcher
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from .logger import Logger
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from .output_helpers import yellow_print
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from .serial_reader import Reader
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def run_make(target, make, console, console_parser, event_queue, cmd_queue, logger):
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# type: (str, str, miniterm.Console, ConsoleParser, queue.Queue, queue.Queue, Logger) -> None
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if isinstance(make, list):
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popen_args = make + [target]
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else:
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popen_args = [make, target]
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yellow_print('Running %s...' % ' '.join(popen_args))
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p = subprocess.Popen(popen_args, env=os.environ)
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try:
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p.wait()
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except KeyboardInterrupt:
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p.wait()
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if p.returncode != 0:
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prompt_next_action('Build failed', console, console_parser, event_queue, cmd_queue)
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else:
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logger.output_enabled = True
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class SerialHandler:
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"""
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The class is responsible for buffering serial input and performing corresponding commands.
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"""
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def __init__(self, last_line_part, serial_check_exit, logger, decode_panic, reading_panic, panic_buffer, target,
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force_line_print, start_cmd_sent, serial_instance, encrypted):
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# type: (bytes, bool, Logger, str, int, bytes,str, bool, bool, serial.Serial, bool) -> None
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self._last_line_part = last_line_part
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self._serial_check_exit = serial_check_exit
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self.logger = logger
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self._decode_panic = decode_panic
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self._reading_panic = reading_panic
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self._panic_buffer = panic_buffer
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self.target = target
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self._force_line_print = force_line_print
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self.start_cmd_sent = start_cmd_sent
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self.serial_instance = serial_instance
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self.encrypted = encrypted
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def handle_serial_input(self, data, console_parser, coredump, gdb_helper, line_matcher,
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check_gdb_stub_and_run, finalize_line=False):
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# type: (bytes, ConsoleParser, CoreDump, Optional[GDBHelper], LineMatcher, Callable, bool) -> None
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# Remove "+" after Continue command
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if self.start_cmd_sent:
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self.start_cmd_sent = False
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pos = data.find(b'+')
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if pos != -1:
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data = data[(pos + 1):]
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sp = data.split(b'\n')
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if self._last_line_part != b'':
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# add unprocessed part from previous "data" to the first line
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sp[0] = self._last_line_part + sp[0]
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self._last_line_part = b''
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if sp[-1] != b'':
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# last part is not a full line
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self._last_line_part = sp.pop()
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for line in sp:
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if line == b'':
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continue
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if self._serial_check_exit and line == console_parser.exit_key.encode('latin-1'):
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raise SerialStopException()
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if gdb_helper:
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self.check_panic_decode_trigger(line, gdb_helper)
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with coredump.check(line):
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if self._force_line_print or line_matcher.match(line.decode(errors='ignore')):
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self.logger.print(line + b'\n')
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self.logger.handle_possible_pc_address_in_line(line)
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check_gdb_stub_and_run(line)
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self._force_line_print = False
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# Now we have the last part (incomplete line) in _last_line_part. By
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# default we don't touch it and just wait for the arrival of the rest
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# of the line. But after some time when we didn't received it we need
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# to make a decision.
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force_print_or_matched = any((
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self._force_line_print,
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(finalize_line and line_matcher.match(self._last_line_part.decode(errors='ignore')))
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))
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if self._last_line_part != b'' and force_print_or_matched:
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self._force_line_print = True
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self.logger.print(self._last_line_part)
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self.logger.handle_possible_pc_address_in_line(self._last_line_part)
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check_gdb_stub_and_run(self._last_line_part)
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# It is possible that the incomplete line cuts in half the PC
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# address. A small buffer is kept and will be used the next time
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# handle_possible_pc_address_in_line is invoked to avoid this problem.
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# MATCH_PCADDR matches 10 character long addresses. Therefore, we
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# keep the last 9 characters.
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self.logger.pc_address_buffer = self._last_line_part[-9:]
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# GDB sequence can be cut in half also. GDB sequence is 7
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# characters long, therefore, we save the last 6 characters.
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if gdb_helper:
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gdb_helper.gdb_buffer = self._last_line_part[-6:]
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self._last_line_part = b''
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# else: keeping _last_line_part and it will be processed the next time
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# handle_serial_input is invoked
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def check_panic_decode_trigger(self, line, gdb_helper): # type: (bytes, GDBHelper) -> None
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if self._decode_panic == PANIC_DECODE_DISABLE:
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return
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if self._reading_panic == PANIC_IDLE and re.search(PANIC_START, line.decode('ascii', errors='ignore')):
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self._reading_panic = PANIC_READING
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yellow_print('Stack dump detected')
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if self._reading_panic == PANIC_READING and PANIC_STACK_DUMP in line:
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self.logger.output_enabled = False
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if self._reading_panic == PANIC_READING:
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self._panic_buffer += line.replace(b'\r', b'') + b'\n'
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if self._reading_panic == PANIC_READING and PANIC_END in line:
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self._reading_panic = PANIC_IDLE
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self.logger.output_enabled = True
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gdb_helper.process_panic_output(self._panic_buffer, self.logger, self.target)
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self._panic_buffer = b''
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def handle_commands(self, cmd, chip, run_make_func, console_reader, serial_reader):
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# type: (int, str, Callable, ConsoleReader, Reader) -> None
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config = get_chip_config(chip)
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reset_delay = config['reset']
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enter_boot_set = config['enter_boot_set']
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enter_boot_unset = config['enter_boot_unset']
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high = False
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low = True
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if chip == 'linux':
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if cmd in [CMD_RESET,
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CMD_MAKE,
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CMD_APP_FLASH,
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CMD_ENTER_BOOT]:
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yellow_print('linux target does not support this command')
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return
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if cmd == CMD_STOP:
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console_reader.stop()
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serial_reader.stop()
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elif cmd == CMD_RESET:
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self.serial_instance.setRTS(low)
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self.serial_instance.setDTR(self.serial_instance.dtr) # usbser.sys workaround
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time.sleep(reset_delay)
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self.serial_instance.setRTS(high)
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self.serial_instance.setDTR(self.serial_instance.dtr) # usbser.sys workaround
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self.logger.output_enabled = True
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elif cmd == CMD_MAKE:
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run_make_func('encrypted-flash' if self.encrypted else 'flash')
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elif cmd == CMD_APP_FLASH:
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run_make_func('encrypted-app-flash' if self.encrypted else 'app-flash')
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elif cmd == CMD_OUTPUT_TOGGLE:
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self.logger.output_toggle()
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elif cmd == CMD_TOGGLE_LOGGING:
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self.logger.toggle_logging()
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elif cmd == CMD_TOGGLE_TIMESTAMPS:
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self.logger.toggle_timestamps()
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elif cmd == CMD_ENTER_BOOT:
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yellow_print('Pause app (enter bootloader mode), press Ctrl-T Ctrl-R to restart')
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self.serial_instance.setDTR(high) # IO0=HIGH
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self.serial_instance.setRTS(low) # EN=LOW, chip in reset
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self.serial_instance.setDTR(self.serial_instance.dtr) # usbser.sys workaround
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time.sleep(enter_boot_set) # timeouts taken from esptool.py, includes esp32r0 workaround. defaults: 0.1
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self.serial_instance.setDTR(low) # IO0=LOW
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self.serial_instance.setRTS(high) # EN=HIGH, chip out of reset
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self.serial_instance.setDTR(self.serial_instance.dtr) # usbser.sys workaround
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time.sleep(enter_boot_unset) # timeouts taken from esptool.py, includes esp32r0 workaround. defaults: 0.05
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self.serial_instance.setDTR(high) # IO0=HIGH, done
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else:
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raise RuntimeError('Bad command data %d' % cmd) # type: ignore
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