klipper-dgus/klippy/extras/bltouch.py

264 lines
12 KiB
Python

# BLTouch support
#
# Copyright (C) 2018-2019 Kevin O'Connor <kevin@koconnor.net>
#
# This file may be distributed under the terms of the GNU GPLv3 license.
import math, logging
import homing, probe
SIGNAL_PERIOD = 0.020
MIN_CMD_TIME = 5 * SIGNAL_PERIOD
TEST_TIME = 5 * 60.
RETRY_RESET_TIME = 1.
ENDSTOP_REST_TIME = .001
ENDSTOP_SAMPLE_TIME = .000015
ENDSTOP_SAMPLE_COUNT = 4
Commands = {
None: 0.0, 'pin_down': 0.000650, 'touch_mode': 0.001165,
'pin_up': 0.001475, 'self_test': 0.001780, 'reset': 0.002190,
'set_5V_output_mode' : 0.001988, 'set_OD_output_mode' : 0.002091,
'output_mode_store' : 0.001884,
}
# BLTouch "endstop" wrapper
class BLTouchEndstopWrapper:
def __init__(self, config):
self.printer = config.get_printer()
self.printer.register_event_handler("klippy:connect",
self.handle_connect)
self.position_endstop = config.getfloat('z_offset')
self.stow_on_each_sample = config.getboolean('stow_on_each_sample',
True)
# Create a pwm object to handle the control pin
ppins = self.printer.lookup_object('pins')
self.mcu_pwm = ppins.setup_pin('pwm', config.get('control_pin'))
self.mcu_pwm.setup_max_duration(0.)
self.mcu_pwm.setup_cycle_time(SIGNAL_PERIOD)
self.next_cmd_time = 0.
# Create an "endstop" object to handle the sensor pin
pin = config.get('sensor_pin')
pin_params = ppins.lookup_pin(pin, can_invert=True, can_pullup=True)
mcu = pin_params['chip']
mcu.register_config_callback(self._build_config)
self.mcu_endstop = mcu.setup_pin('endstop', pin_params)
# output mode
self.output_mode = config.getchoice('set_output_mode',
{'5V': '5V', 'OD': 'OD',
None: None}, None)
# Setup for sensor test
self.next_test_time = 0.
self.pin_up_not_triggered = config.getboolean(
'pin_up_reports_not_triggered', True)
self.pin_up_touch_triggered = config.getboolean(
'pin_up_touch_mode_reports_triggered', True)
self.start_mcu_pos = []
# Calculate pin move time
pmt = max(config.getfloat('pin_move_time', 0.675), MIN_CMD_TIME)
self.pin_move_time = math.ceil(pmt / SIGNAL_PERIOD) * SIGNAL_PERIOD
# Wrappers
self.get_mcu = self.mcu_endstop.get_mcu
self.add_stepper = self.mcu_endstop.add_stepper
self.get_steppers = self.mcu_endstop.get_steppers
self.home_wait = self.mcu_endstop.home_wait
self.query_endstop = self.mcu_endstop.query_endstop
# Register BLTOUCH_DEBUG command
self.gcode = self.printer.lookup_object('gcode')
self.gcode.register_command("BLTOUCH_DEBUG", self.cmd_BLTOUCH_DEBUG,
desc=self.cmd_BLTOUCH_DEBUG_help)
self.gcode.register_command("BLTOUCH_STORE", self.cmd_BLTOUCH_STORE,
desc=self.cmd_BLTOUCH_STORE_help)
# multi probes state
self.multi = 'OFF'
def _build_config(self):
kin = self.printer.lookup_object('toolhead').get_kinematics()
for stepper in kin.get_steppers():
if stepper.is_active_axis('z'):
self.add_stepper(stepper)
def handle_connect(self):
self.set_output_mode(self.output_mode)
try:
self.raise_probe()
except homing.CommandError as e:
logging.warning("BLTouch raise probe error: %s", str(e))
def sync_mcu_print_time(self):
curtime = self.printer.get_reactor().monotonic()
est_time = self.mcu_pwm.get_mcu().estimated_print_time(curtime)
self.next_cmd_time = max(self.next_cmd_time, est_time + MIN_CMD_TIME)
def sync_print_time(self):
toolhead = self.printer.lookup_object('toolhead')
print_time = toolhead.get_last_move_time()
if self.next_cmd_time > print_time:
toolhead.dwell(self.next_cmd_time - print_time)
else:
self.next_cmd_time = print_time
def send_cmd(self, cmd, duration=MIN_CMD_TIME):
self.mcu_pwm.set_pwm(self.next_cmd_time, Commands[cmd] / SIGNAL_PERIOD)
# Translate duration to ticks to avoid any secondary mcu clock skew
mcu = self.mcu_pwm.get_mcu()
cmd_clock = mcu.print_time_to_clock(self.next_cmd_time)
cmd_clock += mcu.seconds_to_clock(max(duration, MIN_CMD_TIME))
self.next_cmd_time = mcu.clock_to_print_time(cmd_clock)
return self.next_cmd_time
def verify_state(self, check_start_time, check_end_time, triggered):
# Perform endstop check to verify bltouch reports desired state
self.mcu_endstop.home_start(check_start_time, ENDSTOP_SAMPLE_TIME,
ENDSTOP_SAMPLE_COUNT, ENDSTOP_REST_TIME,
triggered=triggered)
return self.mcu_endstop.home_wait(check_end_time)
def raise_probe(self):
self.sync_mcu_print_time()
if not self.pin_up_not_triggered:
# No way to verify raise attempt - just issue commands
self.send_cmd('reset')
self.send_cmd('pin_up', duration=self.pin_move_time)
self.send_cmd(None)
return
for retry in range(3):
check_start_time = self.send_cmd('pin_up',
duration=self.pin_move_time)
check_end_time = self.send_cmd(None)
success = self.verify_state(check_start_time, check_end_time, False)
if success:
# The "probe raised" test completed successfully
break
if retry >= 2:
raise homing.EndstopError("BLTouch failed to raise probe")
msg = "Failed to verify BLTouch probe is raised; retrying."
self.gcode.respond_info(msg)
self.sync_mcu_print_time()
self.send_cmd('reset', duration=RETRY_RESET_TIME)
def lower_probe(self):
self.test_sensor()
self.sync_print_time()
duration = max(MIN_CMD_TIME, self.pin_move_time - MIN_CMD_TIME)
self.send_cmd('pin_down', duration=duration)
self.send_cmd(None)
def test_sensor(self):
if not self.pin_up_touch_triggered:
# Nothing to test
return
toolhead = self.printer.lookup_object('toolhead')
print_time = toolhead.get_last_move_time()
if print_time < self.next_test_time:
self.next_test_time = print_time + TEST_TIME
return
# Raise the bltouch probe and test if probe is raised
self.sync_print_time()
for retry in range(3):
check_start_time = self.send_cmd('pin_up',
duration=self.pin_move_time)
self.send_cmd('touch_mode')
check_end_time = self.send_cmd(None)
success = self.verify_state(check_start_time, check_end_time, True)
self.sync_print_time()
if success:
# The "bltouch connection" test completed successfully
self.next_test_time = check_end_time + TEST_TIME
return
msg = "BLTouch failed to verify sensor state"
if retry >= 2:
raise homing.EndstopError(msg)
self.gcode.respond_info(msg + '; retrying.')
self.send_cmd('reset', duration=RETRY_RESET_TIME)
def multi_probe_begin(self):
if self.stow_on_each_sample:
return
self.multi = 'FIRST'
def multi_probe_end(self):
if self.stow_on_each_sample:
return
self.raise_probe()
self.sync_print_time()
self.multi = 'OFF'
def probe_prepare(self):
if self.multi == 'OFF' or self.multi == 'FIRST':
self.lower_probe()
if self.multi == 'FIRST':
self.multi = 'ON'
self.sync_print_time()
toolhead = self.printer.lookup_object('toolhead')
toolhead.flush_step_generation()
self.start_mcu_pos = [(s, s.get_mcu_position())
for s in self.mcu_endstop.get_steppers()]
def probe_finalize(self):
if self.multi == 'OFF':
self.raise_probe()
self.sync_print_time()
# Verify the probe actually deployed during the attempt
for s, mcu_pos in self.start_mcu_pos:
if s.get_mcu_position() == mcu_pos:
raise homing.EndstopError("BLTouch failed to deploy")
def home_start(self, print_time, sample_time, sample_count, rest_time):
rest_time = min(rest_time, ENDSTOP_REST_TIME)
return self.mcu_endstop.home_start(print_time, sample_time,
sample_count, rest_time)
def get_position_endstop(self):
return self.position_endstop
def set_output_mode(self, mode):
# If this is inadvertently/purposely issued for a
# BLTOUCH pre V3.0 and clones:
# No reaction at all.
# BLTOUCH V3.0 and V3.1:
# This will set the mode.
if mode is None:
return
logging.info("BLTouch set output mode: %s", mode)
self.sync_mcu_print_time()
if mode == '5V':
self.send_cmd('set_5V_output_mode')
if mode == 'OD':
self.send_cmd('set_OD_output_mode')
def store_output_mode(self, mode):
# If this command is inadvertently/purposely issued for a
# BLTOUCH pre V3.0 and clones:
# No reaction at all to this sequence apart from a pin-down/pin-up
# BLTOUCH V3.0:
# This will set the mode (twice) and sadly, a pin-up is needed at
# the end, because of the pin-down
# BLTOUCH V3.1:
# This will set the mode and store it in the eeprom.
# The pin-up is not needed but does not hurt
logging.info("BLTouch store output mode: %s", mode)
self.sync_print_time()
self.send_cmd('pin_down')
if mode == '5V':
self.send_cmd('set_5V_output_mode')
else:
self.send_cmd('set_OD_output_mode')
self.send_cmd('output_mode_store')
if mode == '5V':
self.send_cmd('set_5V_output_mode')
else:
self.send_cmd('set_OD_output_mode')
self.send_cmd('pin_up')
self.send_cmd(None)
cmd_BLTOUCH_DEBUG_help = "Send a command to the bltouch for debugging"
def cmd_BLTOUCH_DEBUG(self, params):
cmd = self.gcode.get_str('COMMAND', params, None)
if cmd is None or cmd not in Commands:
self.gcode.respond_info("BLTouch commands: %s" % (
", ".join(sorted([c for c in Commands if c is not None]))))
return
self.gcode.respond_info("Sending BLTOUCH_DEBUG COMMAND=%s" % (cmd,))
self.sync_print_time()
self.send_cmd(cmd, duration=self.pin_move_time)
self.send_cmd(None)
self.sync_print_time()
cmd_BLTOUCH_STORE_help = "Store an output mode in the BLTouch EEPROM"
def cmd_BLTOUCH_STORE(self, params):
cmd = self.gcode.get_str('MODE', params, None)
if cmd is None or cmd not in ['5V', 'OD']:
self.gcode.respond_info("BLTouch output modes: 5V, OD")
return
self.gcode.respond_info("Storing BLTouch output mode: %s" % (cmd,))
self.sync_print_time()
self.store_output_mode(cmd)
self.sync_print_time()
def load_config(config):
blt = BLTouchEndstopWrapper(config)
config.get_printer().add_object('probe', probe.PrinterProbe(config, blt))
return blt