def __init__(self, serial_instance):
import sys
#Miniterm.__init__(self, serial_instance, filters=['debug'])
orig_output = sys.stdout
print("orig_output", orig_output)
Miniterm.__init__(self, serial_instance)
self.console.output = ConsoleOut(orig_output)
def connect_miniterm(port):
try:
return Miniterm(
port,
BAUDRATE,
PARITY,
rtscts=False,
xonxoff=False,
echo=False,
convert_outgoing=2,
repr_mode=0,
)
except serial.SerialException as e:
if e.errno == 16:
# Device is busy. Explain what to do.
sys.stderr.write("Found micro:bit, but the device is busy. "
"Wait up to 20 seconds, or "
"press the reset button on the "
"back of the device next to the yellow light; "
"then try again.\n")
elif e.errno == 13:
print("Found micro:bit, but could not connect.".format(port),
file=sys.stderr)
print(e, file=sys.stderr)
print('On linux, try adding yourself to the "dialout" group',
file=sys.stderr)
print('sudo usermod -a -G dialout <your-username>',
file=sys.stderr)
else:
# Try to be as helpful as possible.
sys.stderr.write("Found micro:bit, but could not connect via" +
" port %r: %s\n" % (port, e))
sys.stderr.write("I'm not sure what to suggest. :-(\n")
sys.exit(1)
def connect_miniterm(port):
try:
ser = Serial(port,
BAUDRATE,
parity=PARITY,
rtscts=False,
xonxoff=False)
return Miniterm(ser, echo=False)
except SerialException as e:
if e.errno == errno.ENOENT:
sys.stderr.write("Device %r not found. Check your "
"MicroPython device path settings.\n" % port)
elif e.errno == errno.EBUSY:
# Device is busy. Explain what to do.
sys.stderr.write("Found the device, but it is busy. "
"Wait up to 20 seconds, or "
"press the reset button on the "
"back of the device next to the yellow light; "
"then try again.\n")
elif e.errno == errno.EACCES:
sys.stderr.write(
"Found the device, but could not connect.\n".format(port))
sys.stderr.write('%s\n' % (str(e), ))
sys.stderr.write(
'On linux, try adding yourself to the "dialout" group:\n')
sys.stderr.write('sudo usermod -a -G dialout <your-username>\n')
else:
# Try to be as helpful as possible.
sys.stderr.write("Found the device, but could not connect via" +
" port %r: %s\n" % (port, e))
sys.stderr.write("I'm not sure what to suggest. :-(\n")
input("Press ENTER to continue")
sys.exit(1)
def ttymode(self, dev=None):
if dev is None:
dev = self.dev
tout = dev.timeout
self.tty_enable = True
dev.timeout = None
term = Miniterm(dev, eol='cr')
term.exit_character = chr(0x1d) # GS/CTRL+]
term.menu_character = chr(0x14) # Menu: CTRL+T
term.raw = True
term.set_rx_encoding('UTF-8')
term.set_tx_encoding('UTF-8')
print('--- TTY mode | Quit: CTRL+] | Menu: CTRL+T ---')
term.start()
try:
term.join(True)
except KeyboardInterrupt:
pass
print('--- Exit TTY mode ---')
term.join()
term.close()
dev.timeout = tout
self.tty_enable = False
from serial.tools.miniterm import Miniterm
from umano import settings
from umano.adam.models import emg_sensors_serial, OSCConsole
if __name__ == "__main__":
ser = emg_sensors_serial()
ser.open()
terminal = Miniterm(ser)
terminal.console = OSCConsole(host=settings.ADAM_OSC_RECEIVER_HOST,
port=settings.ADAM_OSC_RECEIVER_PORT,
address=settings.ADAM_OSC_PRESSURE_ADDRESS)
terminal.set_rx_encoding(settings.ADAM_SERIAL_ENCODING)
terminal.start()
def main (args):
port = serial.Serial (args.port, 57600, timeout = args.timeout)
print ('Press device reset button...')
sys.stdout.flush ()
reset (port)
timeout = time.time () + args.timeout
while True:
if port.readline ().strip ().endswith ('READY'):
break
if time.time () >= timeout:
raise IOError ('Sync timeout')
port.write ('config\r\n')
timeout = time.time () + args.timeout
while True:
l = port.readline ()
if l.startswith ('MultiOSD'):
print ('Connected. Type "help" for commands list. Press Ctrl+D to exit.')
print ()
print (l.strip ())
break
if time.time () >= timeout:
raise IOError ('Sync timeout')
sys.stdout.flush ()
term = Miniterm (port, echo = False, eol = 'crlf', filters = ['default'], )
term.exit_character = chr (0x04)
term.menu_character = chr (0x14)
term.raw = True
term.set_rx_encoding ('Latin1')
term.set_tx_encoding ('Latin1')
term.start ()
try:
term.join (True)
except KeyboardInterrupt:
pass
term.join ()
print ()
port.write ('exit\r\n')
import serial from serial.tools.miniterm import Miniterm from settings import Settings ser = serial.serial_for_url(Settings.LOPY_SERIAL, 115200) xterm = Miniterm(ser, echo=False) xterm.join()
def upload(self, firmware, console=True, reset=True):
import argparse
parser = argparse.ArgumentParser()
parser.add_argument("-l", "--list", action="store_true")
parser.add_argument("-v", "--verbose", action="store_true")
args = parser.parse_args()
if args.list:
log.info("Listing information")
print(firmware.fw.reg.show())
print(firmware.fw.code())
print(firmware.hex_blob)
else:
if reset:
log.info("Reset device")
self.ser.open()
# warmboot
self.toggle(4)
self.hex_blob = firmware.hex_blob
# self.ser.readall() # clear out the buffer
# self.ser.write(4)
# wait for the pll to settle
time.sleep(0.2)
counter = 0
log.info("Upload Firmware")
for i in grouper(self.hex_blob, 4):
data = "".join(i).encode()
# print(data)
# counter += 1
# if counter % 4 == 0:
# print('.',end="")
self.ser.write(data)
# a = self.ser.readall()
# print(a)
if console:
log.info("Create Terminal")
term = Miniterm(self.ser)
term.set_rx_encoding("utf-8")
term.set_tx_encoding("utf-8")
term.exit_character = "\x1d"
log.info("Attach Terminal")
term.start()
term.join(True)
def term(serial_instance):
encoding = 'Latin1'
if not hasattr(serial_instance, 'cancel_read'):
# enable timeout for alive flag polling if cancel_read is not available
serial_instance.timeout = 1
serial_instance.write_timeout = None
serial_instance.baudrate = 115200
miniterm = Miniterm(serial_instance, echo=False, eol='lf')
miniterm.raw = True
miniterm.set_rx_encoding(encoding)
miniterm.set_tx_encoding(encoding)
print(
'--- Miniterm on {p.name} {p.baudrate},{p.bytesize},{p.parity},{p.stopbits} ---\n'
.format(p=miniterm.serial))
print('--- Quit: {} | Menu: {} | Help: {} followed by {} ---\n'.format(
key_description(miniterm.exit_character),
key_description(miniterm.menu_character),
key_description(miniterm.menu_character), key_description('\x08')))
miniterm.start()
try:
miniterm.join(True)
except KeyboardInterrupt:
pass
print('\n--- exit ---\n')
miniterm.join()
miniterm.close()
def main(serial_instance):
if not hasattr(serial_instance, 'cancel_read'):
# enable timeout for alive flag polling if cancel_read is not available
serial_instance.timeout = 1
miniterm = Miniterm(
serial_instance,
echo=False,
filters=['direct'])
miniterm.set_rx_encoding('utf-8')
miniterm.set_tx_encoding('utf-8')
sys.stderr.write('--- Patched Miniterm-MPY on {p.name} {p.baudrate},{p.bytesize},{p.parity},{p.stopbits} ---\n'.format(
p=miniterm.serial))
sys.stderr.write('--- Quit: {} | Menu: {} | Help: {} followed by {} ---\n'.format(
key_description(miniterm.exit_character),
key_description(miniterm.menu_character),
key_description(miniterm.menu_character),
key_description('\x08')))
miniterm.start()
try:
miniterm.join(True)
except KeyboardInterrupt:
pass
sys.stderr.write("\n--- exit ---\n")
miniterm.join()
miniterm.close()
import serial
from serial.tools.miniterm import Miniterm, unichr
import colorama
colorama.init(True)
serial_instance = serial.serial_for_url('/dev/ttyUSB0',
115200,
do_not_open=True)
miniterm = Miniterm(serial_instance, filters=['colorize'])
miniterm.exit_character = unichr(29)
miniterm.menu_character = unichr(20)
miniterm.start()
try:
miniterm.join(True)
except KeyboardInterrupt:
pass
