#!/usr/bin/env python3 # # This file is part of the MicroPython project, http://micropython.org/ # # The MIT License (MIT) # # Copyright (c) 2014-2021 Damien P. George # Copyright (c) 2017 Paul Sokolovsky # # 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. """ pyboard interface This module provides the Pyboard class, used to communicate with and control a MicroPython device over a communication channel. Both real boards and emulated devices (e.g. running in QEMU) are supported. Various communication channels are supported, including a serial connection, telnet-style network connection, external process connection. Example usage: import pyboard pyb = pyboard.Pyboard('/dev/ttyACM0') Or: pyb = pyboard.Pyboard('192.168.1.1') Then: pyb.enter_raw_repl() pyb.exec('import pyb') pyb.exec('pyb.LED(1).on()') pyb.exit_raw_repl() Note: if using Python2 then pyb.exec must be written as pyb.exec_. To run a script from the local machine on the board and print out the results: import pyboard pyboard.execfile('test.py', device='/dev/ttyACM0') This script can also be run directly. To execute a local script, use: ./pyboard.py test.py Or: python pyboard.py test.py """ import ast import errno import os import struct import sys import time from collections import namedtuple try: stdout = sys.stdout.buffer except AttributeError: # Python2 doesn't have buffer attr stdout = sys.stdout def stdout_write_bytes(b): b = b.replace(b"\x04", b"") stdout.write(b) stdout.flush() class PyboardError(Exception): def convert(self, info): if len(self.args) >= 3: if b"OSError" in self.args[2] and b"ENOENT" in self.args[2]: return OSError(errno.ENOENT, info) return self listdir_result = namedtuple("dir_result", ["name", "st_mode", "st_ino", "st_size"]) class TelnetToSerial: def __init__(self, ip, user, password, read_timeout=None): self.tn = None import telnetlib self.tn = telnetlib.Telnet(ip, timeout=15) self.read_timeout = read_timeout if b"Login as:" in self.tn.read_until(b"Login as:", timeout=read_timeout): self.tn.write(bytes(user, "ascii") + b"\r\n") if b"Password:" in self.tn.read_until(b"Password:", timeout=read_timeout): # needed because of internal implementation details of the telnet server time.sleep(0.2) self.tn.write(bytes(password, "ascii") + b"\r\n") if b"for more information." in self.tn.read_until( b'Type "help()" for more information.', timeout=read_timeout ): # login successful from collections import deque self.fifo = deque() return raise PyboardError("Failed to establish a telnet connection with the board") def __del__(self): self.close() def close(self): if self.tn: self.tn.close() def read(self, size=1): while len(self.fifo) < size: timeout_count = 0 data = self.tn.read_eager() if len(data): self.fifo.extend(data) timeout_count = 0 else: time.sleep(0.25) if self.read_timeout is not None and timeout_count > 4 * self.read_timeout: break timeout_count += 1 data = b"" while len(data) < size and len(self.fifo) > 0: data += bytes([self.fifo.popleft()]) return data def write(self, data): self.tn.write(data) return len(data) def inWaiting(self): n_waiting = len(self.fifo) if not n_waiting: data = self.tn.read_eager() self.fifo.extend(data) return len(data) else: return n_waiting class ProcessToSerial: "Execute a process and emulate serial connection using its stdin/stdout." def __init__(self, cmd): import subprocess self.subp = subprocess.Popen( cmd, bufsize=0, shell=True, preexec_fn=os.setsid, stdin=subprocess.PIPE, stdout=subprocess.PIPE, ) # Initially was implemented with selectors, but that adds Python3 # dependency. However, there can be race conditions communicating # with a particular child process (like QEMU), and selectors may # still work better in that case, so left inplace for now. # # import selectors # self.sel = selectors.DefaultSelector() # self.sel.register(self.subp.stdout, selectors.EVENT_READ) import select self.poll = select.poll() self.poll.register(self.subp.stdout.fileno()) def close(self): import signal os.killpg(os.getpgid(self.subp.pid), signal.SIGTERM) def read(self, size=1): data = b"" while len(data) < size: data += self.subp.stdout.read(size - len(data)) return data def write(self, data): self.subp.stdin.write(data) return len(data) def inWaiting(self): # res = self.sel.select(0) res = self.poll.poll(0) if res: return 1 return 0 class ProcessPtyToTerminal: """Execute a process which creates a PTY and prints slave PTY as first line of its output, and emulate serial connection using this PTY.""" def __init__(self, cmd): import subprocess import re import serial self.subp = subprocess.Popen( cmd.split(), bufsize=0, shell=False, preexec_fn=os.setsid, stdin=subprocess.PIPE, stdout=subprocess.PIPE, stderr=subprocess.STDOUT, ) pty_line = self.subp.stdout.readline().decode("utf-8") m = re.search(r"/dev/pts/[0-9]+", pty_line) if not m: print("Error: unable to find PTY device in startup line:", pty_line) self.close() sys.exit(1) pty = m.group() # Compensate for some boards taking a bit longer to start time.sleep(0.1) # rtscts, dsrdtr params are to workaround pyserial bug: # http://stackoverflow.com/questions/34831131/pyserial-does-not-play-well-with-virtual-port self.serial = serial.Serial(pty, interCharTimeout=1, rtscts=True, dsrdtr=True) def close(self): import signal os.killpg(os.getpgid(self.subp.pid), signal.SIGTERM) def read(self, size=1): return self.serial.read(size) def write(self, data): return self.serial.write(data) def inWaiting(self): return self.serial.inWaiting() class Pyboard: def __init__( self, device, baudrate=115200, user="micro", password="python", wait=0, exclusive=True, timeout=None, write_timeout=5, ): self.in_raw_repl = False self.use_raw_paste = True if device.startswith("exec:"): self.serial = ProcessToSerial(device[len("exec:") :]) elif device.startswith("execpty:"): self.serial = ProcessPtyToTerminal(device[len("execpty:") :]) elif device and device[0].isdigit() and device[-1].isdigit() and device.count(".") == 3: # device looks like an IP address self.serial = TelnetToSerial(device, user, password, read_timeout=10) else: import serial import serial.tools.list_ports # Set options, and exclusive if pyserial supports it serial_kwargs = { "baudrate": baudrate, "timeout": timeout, "write_timeout": write_timeout, "interCharTimeout": 1, } if serial.__version__ >= "3.3": serial_kwargs["exclusive"] = exclusive delayed = False for attempt in range(wait + 1): try: if os.name == "nt": self.serial = serial.Serial(**serial_kwargs) self.serial.port = device portinfo = list(serial.tools.list_ports.grep(device)) # type: ignore if portinfo and portinfo[0].manufacturer != "Microsoft": # ESP8266/ESP32 boards use RTS/CTS for flashing and boot mode selection. # DTR False: to avoid using the reset button will hang the MCU in bootloader mode # RTS False: to prevent pulses on rts on serial.close() that would POWERON_RESET an ESPxx self.serial.dtr = False # DTR False = gpio0 High = Normal boot self.serial.rts = False # RTS False = EN High = MCU enabled self.serial.open() else: self.serial = serial.Serial(device, **serial_kwargs) break except (OSError, IOError): # Py2 and Py3 have different errors if wait == 0: continue if attempt == 0: sys.stdout.write("Waiting {} seconds for pyboard ".format(wait)) delayed = True time.sleep(1) sys.stdout.write(".") sys.stdout.flush() else: if delayed: print("") raise PyboardError("failed to access " + device) if delayed: print("") def close(self): self.serial.close() def read_until( self, min_num_bytes, ending, timeout=10, data_consumer=None, timeout_overall=None ): """ min_num_bytes: Obsolete. ending: Return if 'ending' matches. timeout [s]: Return if timeout between characters. None: Infinite timeout. timeout_overall [s]: Return not later than timeout_overall. None: Infinite timeout. data_consumer: Use callback for incoming characters. If data_consumer is used then data is not accumulated and the ending must be 1 byte long It is not visible to the caller why the function returned. It could be ending or timeout. """ assert data_consumer is None or len(ending) == 1 assert isinstance(timeout, (type(None), int, float)) assert isinstance(timeout_overall, (type(None), int, float)) data = b"" begin_overall_s = begin_char_s = time.monotonic() while True: if data.endswith(ending): break elif self.serial.inWaiting() > 0: new_data = self.serial.read(1) if data_consumer: data_consumer(new_data) data = new_data else: data = data + new_data begin_char_s = time.monotonic() else: if timeout is not None and time.monotonic() >= begin_char_s + timeout: break if ( timeout_overall is not None and time.monotonic() >= begin_overall_s + timeout_overall ): break time.sleep(0.01) return data def enter_raw_repl(self, soft_reset=True, timeout_overall=10): try: self._enter_raw_repl_unprotected(soft_reset, timeout_overall) except OSError as er: raise PyboardError("could not enter raw repl: {}".format(er)) def _enter_raw_repl_unprotected(self, soft_reset, timeout_overall): self.serial.write(b"\r\x03") # ctrl-C: interrupt any running program # flush input (without relying on serial.flushInput()) n = self.serial.inWaiting() while n > 0: self.serial.read(n) n = self.serial.inWaiting() self.serial.write(b"\r\x01") # ctrl-A: enter raw REPL if soft_reset: data = self.read_until( 1, b"raw REPL; CTRL-B to exit\r\n>", timeout_overall=timeout_overall ) if not data.endswith(b"raw REPL; CTRL-B to exit\r\n>"): print(data) raise PyboardError("could not enter raw repl") self.serial.write(b"\x04") # ctrl-D: soft reset # Waiting for "soft reboot" independently to "raw REPL" (done below) # allows boot.py to print, which will show up after "soft reboot" # and before "raw REPL". data = self.read_until(1, b"soft reboot\r\n", timeout_overall=timeout_overall) if not data.endswith(b"soft reboot\r\n"): print(data) raise PyboardError("could not enter raw repl") data = self.read_until(1, b"raw REPL; CTRL-B to exit\r\n", timeout_overall=timeout_overall) if not data.endswith(b"raw REPL; CTRL-B to exit\r\n"): print(data) raise PyboardError("could not enter raw repl") self.in_raw_repl = True def exit_raw_repl(self): self.serial.write(b"\r\x02") # ctrl-B: enter friendly REPL self.in_raw_repl = False def follow(self, timeout, data_consumer=None): # wait for normal output data = self.read_until(1, b"\x04", timeout=timeout, data_consumer=data_consumer) if not data.endswith(b"\x04"): raise PyboardError("timeout waiting for first EOF reception") data = data[:-1] # wait for error output data_err = self.read_until(1, b"\x04", timeout=timeout) if not data_err.endswith(b"\x04"): raise PyboardError("timeout waiting for second EOF reception") data_err = data_err[:-1] # return normal and error output return data, data_err def raw_paste_write(self, command_bytes): # Read initial header, with window size. data = self.serial.read(2) window_size = struct.unpack("") if not data.endswith(b">"): raise PyboardError("could not enter raw repl") if self.use_raw_paste: # Try to enter raw-paste mode. self.serial.write(b"\x05A\x01") data = self.serial.read(2) if data == b"R\x00": # Device understood raw-paste command but doesn't support it. pass elif data == b"R\x01": # Device supports raw-paste mode, write out the command using this mode. return self.raw_paste_write(command_bytes) else: # Device doesn't support raw-paste, fall back to normal raw REPL. data = self.read_until(1, b"w REPL; CTRL-B to exit\r\n>") if not data.endswith(b"w REPL; CTRL-B to exit\r\n>"): print(data) raise PyboardError("could not enter raw repl") # Don't try to use raw-paste mode again for this connection. self.use_raw_paste = False # Write command using standard raw REPL, 256 bytes every 10ms. for i in range(0, len(command_bytes), 256): self.serial.write(command_bytes[i : min(i + 256, len(command_bytes))]) time.sleep(0.01) self.serial.write(b"\x04") # check if we could exec command data = self.serial.read(2) if data != b"OK": raise PyboardError("could not exec command (response: %r)" % data) def exec_raw(self, command, timeout=10, data_consumer=None): self.exec_raw_no_follow(command) return self.follow(timeout, data_consumer) def eval(self, expression, parse=False): if parse: ret = self.exec_("print(repr({}))".format(expression)) ret = ret.strip() return ast.literal_eval(ret.decode()) else: ret = self.exec_("print({})".format(expression)) ret = ret.strip() return ret # In Python3, call as pyboard.exec(), see the setattr call below. def exec_(self, command, timeout=10, data_consumer=None): ret, ret_err = self.exec_raw(command, timeout, data_consumer) if ret_err: raise PyboardError("exception", ret, ret_err) return ret def execfile(self, filename): with open(filename, "rb") as f: pyfile = f.read() return self.exec_(pyfile) def get_time(self): t = str(self.eval("machine.RTC().datetime()"), encoding="utf8")[1:-1].split(", ") return int(t[4]) * 3600 + int(t[5]) * 60 + int(t[6]) def fs_exists(self, src): try: self.exec_("import os\nos.stat(%s)" % (("'%s'" % src) if src else "")) return True except PyboardError: return False def fs_ls(self, src): cmd = ( "import os\nfor f in os.ilistdir(%s):\n" " print('{:12} {}{}'.format(f[3]if len(f)>3 else 0,f[0],'/'if f[1]&0x4000 else ''))" % (("'%s'" % src) if src else "") ) self.exec_(cmd, data_consumer=stdout_write_bytes) def fs_listdir(self, src=""): buf = bytearray() def repr_consumer(b): buf.extend(b.replace(b"\x04", b"")) cmd = "import os\nfor f in os.ilistdir(%s):\n print(repr(f), end=',')" % ( ("'%s'" % src) if src else "" ) try: buf.extend(b"[") self.exec_(cmd, data_consumer=repr_consumer) buf.extend(b"]") except PyboardError as e: raise e.convert(src) return [ listdir_result(*f) if len(f) == 4 else listdir_result(*(f + (0,))) for f in ast.literal_eval(buf.decode()) ] def fs_stat(self, src): try: self.exec_("import os") return os.stat_result(self.eval("os.stat(%s)" % ("'%s'" % src), parse=True)) except PyboardError as e: raise e.convert(src) def fs_cat(self, src, chunk_size=256): cmd = ( "with open('%s') as f:\n while 1:\n" " b=f.read(%u)\n if not b:break\n print(b,end='')" % (src, chunk_size) ) self.exec_(cmd, data_consumer=stdout_write_bytes) def fs_readfile(self, src, chunk_size=256): buf = bytearray() def repr_consumer(b): buf.extend(b.replace(b"\x04", b"")) cmd = ( "with open('%s', 'rb') as f:\n while 1:\n" " b=f.read(%u)\n if not b:break\n print(b,end='')" % (src, chunk_size) ) try: self.exec_(cmd, data_consumer=repr_consumer) except PyboardError as e: raise e.convert(src) return ast.literal_eval(buf.decode()) def fs_writefile(self, dest, data, chunk_size=256): self.exec_("f=open('%s','wb')\nw=f.write" % dest) while data: chunk = data[:chunk_size] self.exec_("w(" + repr(chunk) + ")") data = data[len(chunk) :] self.exec_("f.close()") def fs_cp(self, src, dest, chunk_size=256, progress_callback=None): if progress_callback: src_size = self.fs_stat(src).st_size written = 0 self.exec_("fr=open('%s','rb')\nr=fr.read\nfw=open('%s','wb')\nw=fw.write" % (src, dest)) while True: data_len = int(self.exec_("d=r(%u)\nw(d)\nprint(len(d))" % chunk_size)) if not data_len: break if progress_callback: written += data_len progress_callback(written, src_size) self.exec_("fr.close()\nfw.close()") def fs_get(self, src, dest, chunk_size=256, progress_callback=None): if progress_callback: src_size = self.fs_stat(src).st_size written = 0 self.exec_("f=open('%s','rb')\nr=f.read" % src) with open(dest, "wb") as f: while True: data = bytearray() self.exec_("print(r(%u))" % chunk_size, data_consumer=lambda d: data.extend(d)) assert data.endswith(b"\r\n\x04") try: data = ast.literal_eval(str(data[:-3], "ascii")) if not isinstance(data, bytes): raise ValueError("Not bytes") except (UnicodeError, ValueError) as e: raise PyboardError("fs_get: Could not interpret received data: %s" % str(e)) if not data: break f.write(data) if progress_callback: written += len(data) progress_callback(written, src_size) self.exec_("f.close()") def fs_put(self, src, dest, chunk_size=256, progress_callback=None): if progress_callback: src_size = os.path.getsize(src) written = 0 self.exec_("f=open('%s','wb')\nw=f.write" % dest) with open(src, "rb") as f: while True: data = f.read(chunk_size) if not data: break if sys.version_info < (3,): self.exec_("w(b" + repr(data) + ")") else: self.exec_("w(" + repr(data) + ")") if progress_callback: written += len(data) progress_callback(written, src_size) self.exec_("f.close()") def fs_mkdir(self, dir): self.exec_("import os\nos.mkdir('%s')" % dir) def fs_rmdir(self, dir): self.exec_("import os\nos.rmdir('%s')" % dir) def fs_rm(self, src): self.exec_("import os\nos.remove('%s')" % src) def fs_touch(self, src): self.exec_("f=open('%s','a')\nf.close()" % src) # in Python2 exec is a keyword so one must use "exec_" # but for Python3 we want to provide the nicer version "exec" setattr(Pyboard, "exec", Pyboard.exec_) def execfile(filename, device="/dev/ttyACM0", baudrate=115200, user="micro", password="python"): pyb = Pyboard(device, baudrate, user, password) pyb.enter_raw_repl() output = pyb.execfile(filename) stdout_write_bytes(output) pyb.exit_raw_repl() pyb.close() def filesystem_command(pyb, args, progress_callback=None, verbose=False): def fname_remote(src): if src.startswith(":"): src = src[1:] # Convert all path separators to "/", because that's what a remote device uses. return src.replace(os.path.sep, "/") def fname_cp_dest(src, dest): _, src = os.path.split(src) if dest is None or dest == "": dest = src elif dest == ".": dest = "./" + src elif dest.endswith("/"): dest += src return dest cmd = args[0] args = args[1:] try: if cmd == "cp": if len(args) == 1: raise PyboardError( "cp: missing destination file operand after '{}'".format(args[0]) ) srcs = args[:-1] dest = args[-1] if dest.startswith(":"): op_remote_src = pyb.fs_cp op_local_src = pyb.fs_put else: op_remote_src = pyb.fs_get op_local_src = lambda src, dest, **_: __import__("shutil").copy(src, dest) for src in srcs: if verbose: print("cp %s %s" % (src, dest)) if src.startswith(":"): op = op_remote_src else: op = op_local_src src2 = fname_remote(src) dest2 = fname_cp_dest(src2, fname_remote(dest)) op(src2, dest2, progress_callback=progress_callback) else: ops = { "cat": pyb.fs_cat, "ls": pyb.fs_ls, "mkdir": pyb.fs_mkdir, "rm": pyb.fs_rm, "rmdir": pyb.fs_rmdir, "touch": pyb.fs_touch, } if cmd not in ops: raise PyboardError("'{}' is not a filesystem command".format(cmd)) if cmd == "ls" and not args: args = [""] for src in args: src = fname_remote(src) if verbose: print("%s :%s" % (cmd, src)) ops[cmd](src) except PyboardError as er: if len(er.args) > 1: print(str(er.args[2], "ascii")) else: print(er) pyb.exit_raw_repl() pyb.close() sys.exit(1) _injected_import_hook_code = """\ import os, io class _FS: class File(io.IOBase): def __init__(self): self.off = 0 def ioctl(self, request, arg): return 0 def readinto(self, buf): buf[:] = memoryview(_injected_buf)[self.off:self.off + len(buf)] self.off += len(buf) return len(buf) mount = umount = chdir = lambda *args: None def stat(self, path): if path == '_injected.mpy': return tuple(0 for _ in range(10)) else: raise OSError(-2) # ENOENT def open(self, path, mode): return self.File() os.mount(_FS(), '/_') os.chdir('/_') from _injected import * os.umount('/_') del _injected_buf, _FS """ def main(): import argparse cmd_parser = argparse.ArgumentParser(description="Run scripts on the pyboard.") cmd_parser.add_argument( "-d", "--device", default=os.environ.get("PYBOARD_DEVICE", "/dev/ttyACM0"), help="the serial device or the IP address of the pyboard", ) cmd_parser.add_argument( "-b", "--baudrate", default=os.environ.get("PYBOARD_BAUDRATE", "115200"), help="the baud rate of the serial device", ) cmd_parser.add_argument("-u", "--user", default="micro", help="the telnet login username") cmd_parser.add_argument("-p", "--password", default="python", help="the telnet login password") cmd_parser.add_argument("-c", "--command", help="program passed in as string") cmd_parser.add_argument( "-w", "--wait", default=0, type=int, help="seconds to wait for USB connected board to become available", ) group = cmd_parser.add_mutually_exclusive_group() group.add_argument( "--soft-reset", default=True, action="store_true", help="Whether to perform a soft reset when connecting to the board [default]", ) group.add_argument( "--no-soft-reset", action="store_false", dest="soft_reset", ) group = cmd_parser.add_mutually_exclusive_group() group.add_argument( "--follow", action="store_true", default=None, help="follow the output after running the scripts [default if no scripts given]", ) group.add_argument( "--no-follow", action="store_false", dest="follow", ) group = cmd_parser.add_mutually_exclusive_group() group.add_argument( "--exclusive", action="store_true", default=True, help="Open the serial device for exclusive access [default]", ) group.add_argument( "--no-exclusive", action="store_false", dest="exclusive", ) cmd_parser.add_argument( "-f", "--filesystem", action="store_true", help="perform a filesystem action: " "cp local :device | cp :device local | cat path | ls [path] | rm path | mkdir path | rmdir path", ) cmd_parser.add_argument("files", nargs="*", help="input files") args = cmd_parser.parse_args() # open the connection to the pyboard try: pyb = Pyboard( args.device, args.baudrate, args.user, args.password, args.wait, args.exclusive ) except PyboardError as er: print(er) sys.exit(1) # run any command or file(s) if args.command is not None or args.filesystem or len(args.files): # we must enter raw-REPL mode to execute commands # this will do a soft-reset of the board try: pyb.enter_raw_repl(args.soft_reset) except PyboardError as er: print(er) pyb.close() sys.exit(1) def execbuffer(buf): try: if args.follow is None or args.follow: ret, ret_err = pyb.exec_raw( buf, timeout=None, data_consumer=stdout_write_bytes ) else: pyb.exec_raw_no_follow(buf) ret_err = None except PyboardError as er: print(er) pyb.close() sys.exit(1) except KeyboardInterrupt: sys.exit(1) if ret_err: pyb.exit_raw_repl() pyb.close() stdout_write_bytes(ret_err) sys.exit(1) # do filesystem commands, if given if args.filesystem: filesystem_command(pyb, args.files, verbose=True) del args.files[:] # run the command, if given if args.command is not None: execbuffer(args.command.encode("utf-8")) # run any files for filename in args.files: with open(filename, "rb") as f: pyfile = f.read() if filename.endswith(".mpy") and pyfile[0] == ord("M"): pyb.exec_("_injected_buf=" + repr(pyfile)) pyfile = _injected_import_hook_code execbuffer(pyfile) # exiting raw-REPL just drops to friendly-REPL mode pyb.exit_raw_repl() # if asked explicitly, or no files given, then follow the output if args.follow or (args.command is None and not args.filesystem and len(args.files) == 0): try: ret, ret_err = pyb.follow(timeout=None, data_consumer=stdout_write_bytes) except PyboardError as er: print(er) sys.exit(1) except KeyboardInterrupt: sys.exit(1) if ret_err: pyb.close() stdout_write_bytes(ret_err) sys.exit(1) # close the connection to the pyboard pyb.close() if __name__ == "__main__": main() pFad - Phonifier reborn

Pfad - The Proxy pFad of © 2024 Garber Painting. All rights reserved.

Note: This service is not intended for secure transactions such as banking, social media, email, or purchasing. Use at your own risk. We assume no liability whatsoever for broken pages.


Alternative Proxies:

Alternative Proxy

pFad Proxy

pFad v3 Proxy

pFad v4 Proxy