#!/usr/bin/env python # SPDX-FileCopyrightText: Copyright (c) 2014-2016 Damien P. George # SPDX-FileCopyrightText: Copyright (c) 2017 Paul Sokolovsky # SPDX-FileCopyrightText: 2014 MicroPython & CircuitPython contributors (https://github.com/adafruit/circuitpython/graphs/contributors) # # SPDX-License-Identifier: MIT """ 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('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 sys import time import os 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(BaseException): pass 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.split(), 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 secondary 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.PIPE, ) pty_line = self.subp.stderr.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() # rtscts, dsrdtr params are to workaround pyserial bug: # http://stackoverflow.com/questions/34831131/pyserial-does-not-play-well-with-virtual-port self.ser = 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.ser.read(size) def write(self, data): return self.ser.write(data) def inWaiting(self): return self.ser.inWaiting() class Pyboard: def __init__(self, device, baudrate=115200, user="micro", password="python", wait=0): if device.startswith("exec:"): self.serial = ProcessToSerial(device[len("exec:") :]) elif device.startswith("execpty:"): self.serial = ProcessPtyToTerminal(device[len("qemupty:") :]) 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 delayed = False for attempt in range(wait + 1): try: self.serial = serial.Serial(device, baudrate=baudrate, interCharTimeout=1) 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): data = self.serial.read(min_num_bytes) if data_consumer: data_consumer(data) timeout_count = 0 while True: if data.endswith(ending): break elif self.serial.inWaiting() > 0: new_data = self.serial.read(1) data = data + new_data if data_consumer: data_consumer(new_data) timeout_count = 0 else: timeout_count += 1 if timeout is not None and timeout_count >= 100 * timeout: break time.sleep(0.01) return data def enter_raw_repl(self): self.serial.write(b"\r\x03\x03") # ctrl-C twice: 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 data = self.read_until(1, b"raw REPL; CTRL-B to exit\r\n>") 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 data = self.read_until(1, b"soft reboot\r\n") if not data.endswith(b"soft reboot\r\n"): print(data) raise PyboardError("could not enter raw repl") # By splitting this into 2 reads, it allows boot.py to print stuff, # which will show up after the soft reboot and before the raw REPL. data = self.read_until(1, b"raw REPL; CTRL-B to exit\r\n") if not data.endswith(b"raw REPL; CTRL-B to exit\r\n"): print(data) raise PyboardError("could not enter raw repl") def exit_raw_repl(self): self.serial.write(b"\r\x02") # ctrl-B: enter friendly REPL 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 exec_raw_no_follow(self, command): if isinstance(command, bytes): command_bytes = command else: command_bytes = bytes(command, encoding="utf8") # check we have a prompt data = self.read_until(1, b">") if not data.endswith(b">"): raise PyboardError("could not enter raw repl") # write command 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): ret = self.exec_("print({})".format(expression)) ret = ret.strip() return ret def exec_(self, command): ret, ret_err = self.exec_raw(command) 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("pyb.RTC().datetime()"), encoding="utf8")[1:-1].split(", ") return int(t[4]) * 3600 + int(t[5]) * 60 + int(t[6]) # 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 main(): import argparse cmd_parser = argparse.ArgumentParser(description="Run scripts on the pyboard.") cmd_parser.add_argument( "--device", default="/dev/ttyACM0", help="the serial device or the IP address of the pyboard", ) cmd_parser.add_argument( "-b", "--baudrate", default=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", ) cmd_parser.add_argument( "--follow", action="store_true", help="follow the output after running the scripts [default if no scripts given]", ) 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) except PyboardError as er: print(er) sys.exit(1) # run any command or file(s) if args.command is not None 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() except PyboardError as er: print(er) pyb.close() sys.exit(1) def execbuffer(buf): try: ret, ret_err = pyb.exec_raw(buf, timeout=None, data_consumer=stdout_write_bytes) 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) # 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() 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 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()