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esp_rfc2217_server.py
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esp_rfc2217_server.py
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#!/usr/bin/env python
# SPDX-FileCopyrightText: 2009-2015 Chris Liechti
# SPDX-FileContributor: 2020-2022 Espressif Systems (Shanghai) CO LTD
# SPDX-License-Identifier: BSD-3-Clause
#
# Redirect data from a TCP/IP connection to a serial port and vice versa using RFC 2217.
#
# This is a modified version of rfc2217_server.py provided by the pyserial package
# (pythonhosted.org/pyserial/examples.html#single-port-tcp-ip-serial-bridge-rfc-2217).
# It uses a custom PortManager to properly apply the RTS & DTR signals
# for reseting ESP chips.
#
# Run the following command on the server side to make
# connection between /dev/ttyUSB1 and TCP port 4000:
#
# python esp_rfc2217_server.py -p 4000 /dev/ttyUSB1
#
# Esptool can connect to the ESP device through that server as it is
# demonstrated in the following example:
#
# esptool.py --port rfc2217://localhost:4000?ign_set_control flash_id
#
###################################################################################
# redirect data from a TCP/IP connection to a serial port and vice versa
# using RFC 2217
#
# (C) 2009-2015 Chris Liechti <[email protected]>
#
# SPDX-License-Identifier: BSD-3-Clause
import logging
import os
import socket
import sys
import threading
import time
from esptool.config import load_config_file
from esptool.reset import ClassicReset, CustomReset, DEFAULT_RESET_DELAY, UnixTightReset
import serial
import serial.rfc2217
from serial.rfc2217 import (
COM_PORT_OPTION,
SET_CONTROL,
SET_CONTROL_DTR_OFF,
SET_CONTROL_DTR_ON,
SET_CONTROL_RTS_OFF,
SET_CONTROL_RTS_ON,
)
cfg, _ = load_config_file(verbose=True)
cfg = cfg["esptool"]
class EspPortManager(serial.rfc2217.PortManager):
"""
The beginning of the reset sequence is detected and the proper reset sequence
is applied in a thread. The rest of the reset sequence received is just ignored
and not sent to the serial port.
"""
def __init__(self, serial_port, connection, esp32r0_delay, logger=None):
self.esp32r0_delay = esp32r0_delay
super(EspPortManager, self).__init__(serial_port, connection, logger)
def _telnet_process_subnegotiation(self, suboption):
if suboption[0:1] == COM_PORT_OPTION and suboption[1:2] == SET_CONTROL:
if suboption[2:3] == SET_CONTROL_DTR_OFF:
self.serial.dtr = False
return
elif suboption[2:3] == SET_CONTROL_RTS_ON and not self.serial.dtr:
reset_thread = threading.Thread(target=self._reset_thread)
reset_thread.daemon = True
reset_thread.name = "reset_thread"
reset_thread.start()
return
elif suboption[2:3] in [
SET_CONTROL_DTR_ON,
SET_CONTROL_RTS_ON,
SET_CONTROL_RTS_OFF,
]:
return
# only in cases not handled above do the original implementation in PortManager
super(EspPortManager, self)._telnet_process_subnegotiation(suboption)
def _reset_thread(self):
"""
The reset logic is used from esptool.py because the RTS and DTR signals
cannot be retransmitted through RFC 2217 with proper timing.
"""
if self.logger:
self.logger.info("Activating reset in thread")
delay = DEFAULT_RESET_DELAY
if self.esp32r0_delay:
delay += 0.5
cfg_custom_reset_sequence = cfg.get("custom_reset_sequence")
if cfg_custom_reset_sequence is not None:
CustomReset(self.serial, cfg_custom_reset_sequence)()
elif os.name != "nt":
UnixTightReset(self.serial, delay)()
else:
ClassicReset(self.serial, delay)()
class Redirector(object):
def __init__(self, serial_instance, socket, debug=False, esp32r0delay=False):
self.serial = serial_instance
self.socket = socket
self._write_lock = threading.Lock()
self.rfc2217 = EspPortManager(
self.serial,
self,
esp32r0delay,
logger=logging.getLogger("rfc2217.server") if debug else None,
)
self.log = logging.getLogger("redirector")
def statusline_poller(self):
self.log.debug("status line poll thread started")
while self.alive:
time.sleep(1)
self.rfc2217.check_modem_lines()
self.log.debug("status line poll thread terminated")
def shortcircuit(self):
"""connect the serial port to the TCP port by copying everything
from one side to the other"""
self.alive = True
self.thread_read = threading.Thread(target=self.reader)
self.thread_read.daemon = True
self.thread_read.name = "serial->socket"
self.thread_read.start()
self.thread_poll = threading.Thread(target=self.statusline_poller)
self.thread_poll.daemon = True
self.thread_poll.name = "status line poll"
self.thread_poll.start()
self.writer()
def reader(self):
"""loop forever and copy serial->socket"""
self.log.debug("reader thread started")
while self.alive:
try:
data = self.serial.read(self.serial.in_waiting or 1)
if data:
# escape outgoing data when needed (Telnet IAC (0xff) character)
self.write(b"".join(self.rfc2217.escape(data)))
except socket.error as msg:
self.log.error("{}".format(msg))
# probably got disconnected
break
self.alive = False
self.log.debug("reader thread terminated")
def write(self, data):
"""thread safe socket write with no data escaping. used to send telnet stuff"""
with self._write_lock:
self.socket.sendall(data)
def writer(self):
"""loop forever and copy socket->serial"""
while self.alive:
try:
data = self.socket.recv(1024)
if not data:
break
self.serial.write(b"".join(self.rfc2217.filter(data)))
except socket.error as msg:
self.log.error("{}".format(msg))
# probably got disconnected
break
self.stop()
def stop(self):
"""Stop copying"""
self.log.debug("stopping")
if self.alive:
self.alive = False
self.thread_read.join()
self.thread_poll.join()
if __name__ == "__main__":
import argparse
parser = argparse.ArgumentParser(
description="RFC 2217 Serial to Network (TCP/IP) redirector.",
epilog="NOTE: no security measures are implemented. "
"Anyone can remotely connect to this service over the network.\n"
"Only one connection at once is supported. "
"When the connection is terminated it waits for the next connect.",
)
parser.add_argument("SERIALPORT")
parser.add_argument(
"-p",
"--localport",
type=int,
help="local TCP port, default: %(default)s",
metavar="TCPPORT",
default=2217,
)
parser.add_argument(
"-v",
"--verbose",
dest="verbosity",
action="count",
help="print more diagnostic messages (option can be given multiple times)",
default=0,
)
parser.add_argument(
"--r0",
help="Use delays necessary for ESP32 revision 0 chips",
action="store_true",
)
args = parser.parse_args()
if args.verbosity > 3:
args.verbosity = 3
level = (logging.WARNING, logging.INFO, logging.DEBUG, logging.NOTSET)[
args.verbosity
]
logging.basicConfig(level=logging.INFO)
# logging.getLogger('root').setLevel(logging.INFO)
logging.getLogger("rfc2217").setLevel(level)
# connect to serial port
ser = serial.serial_for_url(args.SERIALPORT, do_not_open=True)
ser.timeout = 3 # required so that the reader thread can exit
# reset control line as no _remote_ "terminal" has been connected yet
ser.dtr = False
ser.rts = False
logging.info("RFC 2217 TCP/IP to Serial redirector - type Ctrl-C / BREAK to quit")
try:
ser.open()
except serial.SerialException as e:
logging.error("Could not open serial port {}: {}".format(ser.name, e))
sys.exit(1)
logging.info("Serving serial port: {}".format(ser.name))
settings = ser.get_settings()
srv = socket.socket(socket.AF_INET, socket.SOCK_STREAM)
srv.setsockopt(socket.SOL_SOCKET, socket.SO_REUSEADDR, 1)
srv.bind(("", args.localport))
srv.listen(1)
logging.info("TCP/IP port: {}".format(args.localport))
while True:
try:
client_socket, addr = srv.accept()
logging.info("Connected by {}:{}".format(addr[0], addr[1]))
client_socket.setsockopt(socket.IPPROTO_TCP, socket.TCP_NODELAY, 1)
ser.rts = True
ser.dtr = True
# enter network <-> serial loop
r = Redirector(ser, client_socket, args.verbosity > 0, args.r0)
try:
r.shortcircuit()
finally:
logging.info("Disconnected")
r.stop()
client_socket.close()
ser.dtr = False
ser.rts = False
# Restore port settings (may have been changed by RFC 2217
# capable client)
ser.apply_settings(settings)
except KeyboardInterrupt:
sys.stdout.write("\n")
break
except socket.error as msg:
logging.error(str(msg))
logging.info("--- exit ---")