kopia lustrzana https://github.com/espressif/esp-idf
553 wiersze
19 KiB
Python
553 wiersze
19 KiB
Python
#!/usr/bin/env python
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#
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# esp-idf serial output monitor tool. Does some helpful things:
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# - Looks up hex addresses in ELF file with addr2line
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# - Reset ESP32 via serial RTS line (Ctrl-T Ctrl-R)
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# - Run "make flash" (Ctrl-T Ctrl-F)
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# - Run "make app-flash" (Ctrl-T Ctrl-A)
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# - If gdbstub output is detected, gdb is automatically loaded
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#
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# Copyright 2015-2016 Espressif Systems (Shanghai) PTE LTD
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#
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# Licensed under the Apache License, Version 2.0 (the "License");
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# you may not use this file except in compliance with the License.
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# You may obtain a copy of the License at
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#
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# http://www.apache.org/licenses/LICENSE-2.0
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#
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# Unless required by applicable law or agreed to in writing, software
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# distributed under the License is distributed on an "AS IS" BASIS,
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# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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# See the License for the specific language governing permissions and
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# limitations under the License.
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#
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# Contains elements taken from miniterm "Very simple serial terminal" which
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# is part of pySerial. https://github.com/pyserial/pyserial
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# (C)2002-2015 Chris Liechti <cliechti@gmx.net>
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#
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# Originally released under BSD-3-Clause license.
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#
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from __future__ import print_function, division
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import subprocess
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import argparse
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import codecs
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import re
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import os
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try:
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import queue
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except ImportError:
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import Queue as queue
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import time
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import sys
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import serial
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import serial.tools.miniterm as miniterm
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import threading
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import ctypes
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key_description = miniterm.key_description
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# Control-key characters
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CTRL_A = '\x01'
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CTRL_B = '\x02'
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CTRL_F = '\x06'
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CTRL_H = '\x08'
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CTRL_R = '\x12'
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CTRL_T = '\x14'
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CTRL_RBRACKET = '\x1d' # Ctrl+]
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# ANSI terminal codes
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ANSI_RED = '\033[1;31m'
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ANSI_YELLOW = '\033[0;33m'
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ANSI_NORMAL = '\033[0m'
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def color_print(message, color):
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""" Print a message to stderr with colored highlighting """
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sys.stderr.write("%s%s%s\n" % (color, message, ANSI_NORMAL))
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def yellow_print(message):
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color_print(message, ANSI_YELLOW)
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def red_print(message):
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color_print(message, ANSI_RED)
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__version__ = "1.0"
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# Tags for tuples in queues
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TAG_KEY = 0
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TAG_SERIAL = 1
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# regex matches an potential PC value (0x4xxxxxxx)
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MATCH_PCADDR = re.compile(r'0x4[0-9a-f]{7}', re.IGNORECASE)
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DEFAULT_TOOLCHAIN_PREFIX = "xtensa-esp32-elf-"
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class StoppableThread(object):
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"""
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Provide a Thread-like class which can be 'cancelled' via a subclass-provided
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cancellation method.
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Can be started and stopped multiple times.
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Isn't an instance of type Thread because Python Thread objects can only be run once
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"""
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def __init__(self):
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self._thread = None
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@property
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def alive(self):
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"""
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Is 'alive' whenever the internal thread object exists
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"""
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return self._thread is not None
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def start(self):
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if self._thread is None:
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self._thread = threading.Thread(target=self._run_outer)
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self._thread.start()
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def _cancel(self):
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pass # override to provide cancellation functionality
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def run(self):
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pass # override for the main thread behaviour
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def _run_outer(self):
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try:
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self.run()
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finally:
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self._thread = None
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def stop(self):
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if self._thread is not None:
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old_thread = self._thread
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self._thread = None
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self._cancel()
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old_thread.join()
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class ConsoleReader(StoppableThread):
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""" Read input keys from the console and push them to the queue,
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until stopped.
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"""
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def __init__(self, console, event_queue):
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super(ConsoleReader, self).__init__()
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self.console = console
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self.event_queue = event_queue
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def run(self):
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self.console.setup()
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try:
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while self.alive:
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try:
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if os.name == 'nt':
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# Windows kludge: because the console.cancel() method doesn't
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# seem to work to unblock getkey() on the Windows implementation.
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#
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# So we only call getkey() if we know there's a key waiting for us.
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import msvcrt
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while not msvcrt.kbhit() and self.alive:
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time.sleep(0.1)
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if not self.alive:
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break
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c = self.console.getkey()
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except KeyboardInterrupt:
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c = '\x03'
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if c is not None:
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self.event_queue.put((TAG_KEY, c), False)
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finally:
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self.console.cleanup()
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def _cancel(self):
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if hasattr(self.console, "cancel"):
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self.console.cancel()
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elif os.name == 'posix':
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# this is the way cancel() is implemented in pyserial 3.1 or newer,
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# older pyserial doesn't have this method, hence this hack.
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#
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# on Windows there is a different (also hacky) fix, applied above.
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import fcntl, termios
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fcntl.ioctl(self.console.fd, termios.TIOCSTI, b'\0')
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class SerialReader(StoppableThread):
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""" Read serial data from the serial port and push to the
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event queue, until stopped.
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"""
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def __init__(self, serial, event_queue):
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super(SerialReader, self).__init__()
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self.baud = serial.baudrate
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self.serial = serial
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self.event_queue = event_queue
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if not hasattr(self.serial, 'cancel_read'):
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# enable timeout for checking alive flag,
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# if cancel_read not available
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self.serial.timeout = 0.25
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def run(self):
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if not self.serial.is_open:
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self.serial.baudrate = self.baud
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self.serial.rts = True # Force an RTS reset on open
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self.serial.open()
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self.serial.rts = False
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try:
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while self.alive:
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data = self.serial.read(self.serial.in_waiting or 1)
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if len(data):
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self.event_queue.put((TAG_SERIAL, data), False)
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finally:
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self.serial.close()
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def _cancel(self):
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if hasattr(self.serial, 'cancel_read'):
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try:
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self.serial.cancel_read()
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except:
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pass
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class Monitor(object):
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"""
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Monitor application main class.
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This was originally derived from miniterm.Miniterm, but it turned out to be easier to write from scratch for this
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purpose.
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Main difference is that all event processing happens in the main thread, not the worker threads.
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"""
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def __init__(self, serial_instance, elf_file, make="make", toolchain_prefix=DEFAULT_TOOLCHAIN_PREFIX, eol="CRLF"):
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super(Monitor, self).__init__()
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self.event_queue = queue.Queue()
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self.console = miniterm.Console()
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if os.name == 'nt':
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sys.stderr = ANSIColorConverter(sys.stderr)
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self.console.output = ANSIColorConverter(self.console.output)
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self.console.byte_output = ANSIColorConverter(self.console.byte_output)
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self.serial = serial_instance
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self.console_reader = ConsoleReader(self.console, self.event_queue)
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self.serial_reader = SerialReader(self.serial, self.event_queue)
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self.elf_file = elf_file
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self.make = make
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self.toolchain_prefix = toolchain_prefix
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self.menu_key = CTRL_T
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self.exit_key = CTRL_RBRACKET
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self.translate_eol = {
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"CRLF": lambda c: c.replace(b"\n", b"\r\n"),
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"CR": lambda c: c.replace(b"\n", b"\r"),
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"LF": lambda c: c.replace(b"\r", b"\n"),
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}[eol]
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# internal state
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self._pressed_menu_key = False
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self._read_line = b""
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self._gdb_buffer = b""
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def main_loop(self):
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self.console_reader.start()
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self.serial_reader.start()
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try:
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while self.console_reader.alive and self.serial_reader.alive:
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(event_tag, data) = self.event_queue.get()
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if event_tag == TAG_KEY:
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self.handle_key(data)
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elif event_tag == TAG_SERIAL:
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self.handle_serial_input(data)
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else:
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raise RuntimeError("Bad event data %r" % ((event_tag,data),))
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finally:
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try:
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self.console_reader.stop()
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self.serial_reader.stop()
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except:
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pass
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sys.stderr.write(ANSI_NORMAL + "\n")
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def handle_key(self, key):
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if self._pressed_menu_key:
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self.handle_menu_key(key)
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self._pressed_menu_key = False
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elif key == self.menu_key:
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self._pressed_menu_key = True
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elif key == self.exit_key:
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self.console_reader.stop()
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self.serial_reader.stop()
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else:
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try:
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key = self.translate_eol(key)
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self.serial.write(codecs.encode(key))
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except serial.SerialException:
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pass # this shouldn't happen, but sometimes port has closed in serial thread
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def handle_serial_input(self, data):
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# this may need to be made more efficient, as it pushes out a byte
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# at a time to the console
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for b in data:
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self.console.write_bytes(b)
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if b == b'\n': # end of line
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self.handle_serial_input_line(self._read_line.strip())
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self._read_line = b""
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else:
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self._read_line += b
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self.check_gdbstub_trigger(b)
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def handle_serial_input_line(self, line):
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for m in re.finditer(MATCH_PCADDR, line):
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self.lookup_pc_address(m.group())
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def handle_menu_key(self, c):
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if c == self.exit_key or c == self.menu_key: # send verbatim
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self.serial.write(codecs.encode(c))
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elif c in [ CTRL_H, 'h', 'H', '?' ]:
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red_print(self.get_help_text())
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elif c == CTRL_R: # Reset device via RTS
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self.serial.setRTS(True)
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time.sleep(0.2)
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self.serial.setRTS(False)
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elif c == CTRL_F: # Recompile & upload
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self.run_make("flash")
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elif c == CTRL_A: # Recompile & upload app only
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self.run_make("app-flash")
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else:
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red_print('--- unknown menu character {} --'.format(key_description(c)))
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def get_help_text(self):
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return """
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--- idf_monitor ({version}) - ESP-IDF monitor tool
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--- based on miniterm from pySerial
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---
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--- {exit:8} Exit program
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--- {menu:8} Menu escape key, followed by:
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--- Menu keys:
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--- {menu:7} Send the menu character itself to remote
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--- {exit:7} Send the exit character itself to remote
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--- {reset:7} Reset target board via RTS line
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--- {make:7} Run 'make flash' to build & flash
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--- {appmake:7} Run 'make app-flash to build & flash app
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""".format(version=__version__,
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exit=key_description(self.exit_key),
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menu=key_description(self.menu_key),
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reset=key_description(CTRL_R),
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make=key_description(CTRL_F),
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appmake=key_description(CTRL_A),
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)
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def __enter__(self):
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""" Use 'with self' to temporarily disable monitoring behaviour """
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self.serial_reader.stop()
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self.console_reader.stop()
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def __exit__(self, *args, **kwargs):
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""" Use 'with self' to temporarily disable monitoring behaviour """
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self.console_reader.start()
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self.serial_reader.start()
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def prompt_next_action(self, reason):
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self.console.setup() # set up console to trap input characters
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try:
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red_print("""
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--- {}
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--- Press {} to exit monitor.
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--- Press {} to run 'make flash'.
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--- Press {} to run 'make app-flash'.
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--- Press any other key to resume monitor (resets target).""".format(reason,
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key_description(self.exit_key),
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key_description(CTRL_F),
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key_description(CTRL_A)))
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k = CTRL_T # ignore CTRL-T here, so people can muscle-memory Ctrl-T Ctrl-F, etc.
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while k == CTRL_T:
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k = self.console.getkey()
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finally:
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self.console.cleanup()
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if k == self.exit_key:
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self.event_queue.put((TAG_KEY, k))
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elif k in [ CTRL_F, CTRL_A ]:
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self.event_queue.put((TAG_KEY, self.menu_key))
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self.event_queue.put((TAG_KEY, k))
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def run_make(self, target):
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with self:
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yellow_print("Running make %s..." % target)
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p = subprocess.Popen([self.make,
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target ])
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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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self.prompt_next_action("Build failed")
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def lookup_pc_address(self, pc_addr):
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translation = subprocess.check_output(
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["%saddr2line" % self.toolchain_prefix,
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"-pfia", "-e", self.elf_file, pc_addr],
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cwd=".")
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if not "?? ??:0" in translation:
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yellow_print(translation)
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def check_gdbstub_trigger(self, c):
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self._gdb_buffer = self._gdb_buffer[-6:] + c # keep the last 7 characters seen
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m = re.match(b"\\$(T..)#(..)", self._gdb_buffer) # look for a gdb "reason" for a break
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if m is not None:
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try:
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chsum = sum(ord(p) for p in m.group(1)) & 0xFF
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calc_chsum = int(m.group(2), 16)
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except ValueError:
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return # payload wasn't valid hex digits
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if chsum == calc_chsum:
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self.run_gdb()
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else:
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red_print("Malformed gdb message... calculated checksum %02x received %02x" % (chsum, calc_chsum))
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def run_gdb(self):
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with self: # disable console control
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sys.stderr.write(ANSI_NORMAL)
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try:
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subprocess.call(["%sgdb" % self.toolchain_prefix,
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"-ex", "set serial baud %d" % self.serial.baudrate,
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"-ex", "target remote %s" % self.serial.port,
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"-ex", "interrupt", # monitor has already parsed the first 'reason' command, need a second
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self.elf_file], cwd=".")
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except KeyboardInterrupt:
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pass # happens on Windows, maybe other OSes
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self.prompt_next_action("gdb exited")
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def main():
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parser = argparse.ArgumentParser("idf_monitor - a serial output monitor for esp-idf")
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parser.add_argument(
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'--port', '-p',
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help='Serial port device',
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default=os.environ.get('ESPTOOL_PORT', '/dev/ttyUSB0')
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)
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parser.add_argument(
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'--baud', '-b',
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help='Serial port baud rate',
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type=int,
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default=os.environ.get('MONITOR_BAUD', 115200))
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parser.add_argument(
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'--make', '-m',
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help='Command to run make',
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type=str, default='make')
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parser.add_argument(
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'--toolchain-prefix',
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help="Triplet prefix to add before cross-toolchain names",
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default=DEFAULT_TOOLCHAIN_PREFIX)
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parser.add_argument(
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"--eol",
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choices=['CR', 'LF', 'CRLF'],
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type=lambda c: c.upper(),
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help="End of line to use when sending to the serial port",
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default='CRLF')
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parser.add_argument(
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'elf_file', help='ELF file of application',
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type=argparse.FileType('r'))
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args = parser.parse_args()
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|
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if args.port.startswith("/dev/tty."):
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args.port = args.port.replace("/dev/tty.", "/dev/cu.")
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yellow_print("--- WARNING: Serial ports accessed as /dev/tty.* will hang gdb if launched.")
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yellow_print("--- Using %s instead..." % args.port)
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serial_instance = serial.serial_for_url(args.port, args.baud,
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do_not_open=True)
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serial_instance.dtr = False
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serial_instance.rts = False
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args.elf_file.close() # don't need this as a file
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# remove the parallel jobserver arguments from MAKEFLAGS, as any
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# parent make is only running 1 job (monitor), so we can re-spawn
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# all of the child makes we need (the -j argument remains part of
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# MAKEFLAGS)
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try:
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makeflags = os.environ["MAKEFLAGS"]
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makeflags = re.sub(r"--jobserver[^ =]*=[0-9,]+ ?", "", makeflags)
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os.environ["MAKEFLAGS"] = makeflags
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except KeyError:
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pass # not running a make jobserver
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monitor = Monitor(serial_instance, args.elf_file.name, args.make, args.toolchain_prefix, args.eol)
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yellow_print('--- idf_monitor on {p.name} {p.baudrate} ---'.format(
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p=serial_instance))
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yellow_print('--- Quit: {} | Menu: {} | Help: {} followed by {} ---'.format(
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key_description(monitor.exit_key),
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key_description(monitor.menu_key),
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key_description(monitor.menu_key),
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key_description(CTRL_H)))
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monitor.main_loop()
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|
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if os.name == 'nt':
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# Windows console stuff
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|
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STD_OUTPUT_HANDLE = -11
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STD_ERROR_HANDLE = -12
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|
|
# wincon.h values
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FOREGROUND_INTENSITY = 8
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FOREGROUND_GREY = 7
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|
|
# matches the ANSI color change sequences that IDF sends
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RE_ANSI_COLOR = re.compile(b'\033\\[([01]);3([0-7])m')
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|
|
# list mapping the 8 ANSI colors (the indexes) to Windows Console colors
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|
ANSI_TO_WINDOWS_COLOR = [ 0, 4, 2, 6, 1, 5, 3, 7 ]
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GetStdHandle = ctypes.windll.kernel32.GetStdHandle
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SetConsoleTextAttribute = ctypes.windll.kernel32.SetConsoleTextAttribute
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class ANSIColorConverter(object):
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"""Class to wrap a file-like output stream, intercept ANSI color codes,
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and convert them into calls to Windows SetConsoleTextAttribute.
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Doesn't support all ANSI terminal code escape sequences, only the sequences IDF uses.
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Ironically, in Windows this console output is normally wrapped by winpty which will then detect the console text
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color changes and convert these back to ANSI color codes for MSYS' terminal to display. However this is the
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least-bad working solution, as winpty doesn't support any "passthrough" mode for raw output.
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"""
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def __init__(self, output):
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self.output = output
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self.handle = GetStdHandle(STD_ERROR_HANDLE if self.output == sys.stderr else STD_OUTPUT_HANDLE)
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self.matched = b''
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def write(self, data):
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for b in data:
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l = len(self.matched)
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if b == '\033': # ESC
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self.matched = b
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elif (l == 1 and b == '[') or (1 < l < 7):
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self.matched += b
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if self.matched == ANSI_NORMAL: # reset console
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SetConsoleTextAttribute(self.handle, FOREGROUND_GREY)
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self.matched = b''
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elif len(self.matched) == 7: # could be an ANSI sequence
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m = re.match(RE_ANSI_COLOR, self.matched)
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if m is not None:
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color = ANSI_TO_WINDOWS_COLOR[int(m.group(2))]
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if m.group(1) == b'1':
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color |= FOREGROUND_INTENSITY
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SetConsoleTextAttribute(self.handle, color)
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else:
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self.output.write(self.matched) # not an ANSI color code, display verbatim
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self.matched = b''
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else:
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self.output.write(b)
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self.matched = b''
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|
|
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def flush(self):
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self.output.flush()
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if __name__ == "__main__":
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main()
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