klipper/klippy/chipmisc.py

406 lines
18 KiB
Python

# Code to configure miscellaneous chips
#
# Copyright (C) 2017 Kevin O'Connor <kevin@koconnor.net>
#
# This file may be distributed under the terms of the GNU GPLv3 license.
import pins, mcu
######################################################################
# Output pins
######################################################################
class PrinterStaticDigitalOut:
def __init__(self, printer, config):
pin_list = [pin.strip() for pin in config.get('pins').split(',')]
for pin_desc in pin_list:
mcu_pin = pins.setup_pin(printer, 'digital_out', pin_desc)
mcu_pin.setup_start_value(1, 1, True)
PIN_MIN_TIME = 0.100
class PrinterPin:
def __init__(self, printer, config):
self.printer = printer
self.is_pwm = 'pwm' in config.section.split()[0]
if self.is_pwm:
self.mcu_pin = pins.setup_pin(printer, 'pwm', config.get('pin'))
hard_pwm = config.getint('hard_pwm', None, minval=1)
if hard_pwm is None:
self.mcu_pin.setup_cycle_time(config.getfloat(
'cycle_time', 0.100, above=0.))
else:
self.mcu_pin.setup_hard_pwm(hard_pwm)
self.scale = config.getfloat('scale', 1., above=0.)
else:
self.mcu_pin = pins.setup_pin(
printer, 'digital_out', config.get('pin'))
self.scale = 1.
self.mcu_pin.setup_max_duration(0.)
self.last_value_time = 0.
self.last_value = config.getfloat(
'value', 0., minval=0., maxval=self.scale) / self.scale
self.is_static = config.section.startswith('static_')
if self.is_static:
self.mcu_pin.setup_start_value(
self.last_value, self.last_value, True)
else:
shutdown_value = config.getfloat(
'shutdown_value', 0., minval=0., maxval=self.scale) / self.scale
self.mcu_pin.setup_start_value(self.last_value, shutdown_value)
self.gcode = printer.objects['gcode']
self.gcode.register_command("SET_PIN", self.cmd_SET_PIN,
desc=self.cmd_SET_PIN_help)
cmd_SET_PIN_help = "Set the value of an output pin"
def cmd_SET_PIN(self, params):
pin_name = self.gcode.get_str('PIN', params)
pin = self.printer.objects.get('pin ' + pin_name)
if pin is not self:
if pin is None:
raise self.gcode.error("Pin not configured")
return pin.cmd_SET_PIN(params)
if self.is_static:
raise self.gcode.error("Static pin can not be changed at run-time")
value = self.gcode.get_float('VALUE', params) / self.scale
if value == self.last_value:
return
print_time = self.printer.objects['toolhead'].get_last_move_time()
print_time = max(print_time, self.last_value_time + PIN_MIN_TIME)
if self.is_pwm:
if value < 0. or value > 1.:
raise self.gcode.error("Invalid pin value")
self.mcu_pin.set_pwm(print_time, value)
else:
if value not in [0., 1.]:
raise self.gcode.error("Invalid pin value")
self.mcu_pin.set_digital(print_time, value)
self.last_value = value
self.last_value_time = print_time
class PrinterMultiPin:
def __init__(self, printer, config):
self.printer = printer
try:
pins.get_printer_pins(printer).register_chip('multi_pin', self)
except pins.error:
pass
self.pin_type = None
self.pin_list = [pin.strip() for pin in config.get('pins').split(',')]
self.mcu_pins = []
def setup_pin(self, pin_params):
pin_name = pin_params['pin']
pin = self.printer.objects.get('multi_pin ' + pin_name)
if pin is not self:
if pin is None:
raise pins.error("multi_pin %s not configured" % (pin_name,))
return pin.setup_pin(pin_params)
if self.pin_type is not None:
raise pins.error("Can't setup multi_pin %s twice" % (pin_name,))
self.pin_type = pin_params['type']
invert = ""
if pin_params['invert']:
invert = "!"
self.mcu_pins = [
pins.setup_pin(self.printer, self.pin_type, invert + pin_desc)
for pin_desc in self.pin_list]
return self
def get_mcu(self):
return self.mcu_pins[0].get_mcu()
def setup_max_duration(self, max_duration):
for mcu_pin in self.mcu_pins:
mcu_pin.setup_max_duration(max_duration)
def setup_start_value(self, start_value, shutdown_value):
for mcu_pin in self.mcu_pins:
mcu_pin.setup_start_value(start_value, shutdown_value)
def setup_cycle_time(self, cycle_time):
for mcu_pin in self.mcu_pins:
mcu_pin.setup_cycle_time(cycle_time)
def setup_hard_pwm(self, hard_cycle_ticks):
for mcu_pin in self.mcu_pins:
mcu_pin.setup_hard_pwm(hard_cycle_ticks)
def set_digital(self, print_time, value):
for mcu_pin in self.mcu_pins:
mcu_pin.set_digital(print_time, value)
def set_pwm(self, print_time, value):
for mcu_pin in self.mcu_pins:
mcu_pin.set_pwm(print_time, value)
######################################################################
# Servos
######################################################################
SERVO_SIGNAL_PERIOD = 0.020
class PrinterServo:
def __init__(self, printer, config):
self.printer = printer
self.mcu_servo = pins.setup_pin(printer, 'pwm', config.get('pin'))
self.mcu_servo.setup_max_duration(0.)
self.mcu_servo.setup_cycle_time(SERVO_SIGNAL_PERIOD)
self.min_width = config.getfloat(
'minimum_pulse_width', .001, above=0., below=SERVO_SIGNAL_PERIOD)
self.max_width = config.getfloat(
'maximum_pulse_width', .002
, above=self.min_width, below=SERVO_SIGNAL_PERIOD)
self.max_angle = config.getfloat('maximum_servo_angle', 180.)
self.angle_to_width = (self.max_width - self.min_width) / self.max_angle
self.width_to_value = 1. / SERVO_SIGNAL_PERIOD
self.last_value = self.last_value_time = 0.
self.gcode = printer.objects['gcode']
self.gcode.register_command("SET_SERVO", self.cmd_SET_SERVO,
desc=self.cmd_SET_SERVO_help)
def set_pwm(self, print_time, value):
if value == self.last_value:
return
print_time = max(print_time, self.last_value_time + PIN_MIN_TIME)
self.mcu_servo.set_pwm(print_time, value)
self.last_value = value
self.last_value_time = print_time
def set_angle(self, print_time, angle):
angle = max(0., min(self.max_angle, angle))
width = self.min_width + angle * self.angle_to_width
self.set_pwm(print_time, width * self.width_to_value)
def set_pulse_width(self, print_time, width):
width = max(self.min_width, min(self.max_width, width))
self.set_pwm(print_time, width * self.width_to_value)
cmd_SET_SERVO_help = "Set servo angle"
def cmd_SET_SERVO(self, params):
servo_name = self.gcode.get_str('SERVO', params)
servo = self.printer.objects.get('servo ' + servo_name)
if servo is not self:
if servo is None:
raise self.gcode.error("Servo not configured")
return servo.cmd_SET_SERVO(params)
print_time = self.printer.objects['toolhead'].get_last_move_time()
if 'WIDTH' in params:
self.set_pulse_width(print_time,
self.gcode.get_float('WIDTH', params))
else:
self.set_angle(print_time, self.gcode.get_float('ANGLE', params))
######################################################################
# AD5206 digipot
######################################################################
class ad5206:
def __init__(self, printer, config):
enable_pin_params = pins.get_printer_pins(printer).lookup_pin(
'digital_out', config.get('enable_pin'))
self.mcu = enable_pin_params['chip']
self.pin = enable_pin_params['pin']
self.mcu.add_config_object(self)
scale = config.getfloat('scale', 1., above=0.)
self.channels = [None] * 6
for i in range(len(self.channels)):
val = config.getfloat('channel_%d' % (i+1,), None,
minval=0., maxval=scale)
if val is not None:
self.channels[i] = int(val * 256. / scale + .5)
def build_config(self):
for i, val in enumerate(self.channels):
if val is not None:
self.mcu.add_config_cmd(
"send_spi_message pin=%s msg=%02x%02x" % (self.pin, i, val))
######################################################################
# Replicape board
######################################################################
REPLICAPE_MAX_CURRENT = 3.84
REPLICAPE_SHIFT_REGISTER_BUS = 1
REPLICAPE_SHIFT_REGISTER_DEVICE = 1
REPLICAPE_PCA9685_BUS = 2
REPLICAPE_PCA9685_ADDRESS = 0x70
REPLICAPE_PCA9685_CYCLE_TIME = .001
class pca9685_pwm:
def __init__(self, replicape, channel, pin_params):
self._replicape = replicape
self._channel = channel
if pin_params['type'] not in ['digital_out', 'pwm']:
raise pins.error("Pin type not supported on replicape")
self._mcu = replicape.host_mcu
self._mcu.add_config_object(self)
self._bus = REPLICAPE_PCA9685_BUS
self._address = REPLICAPE_PCA9685_ADDRESS
self._cycle_time = REPLICAPE_PCA9685_CYCLE_TIME
self._max_duration = 2.
self._oid = None
self._invert = pin_params['invert']
self._start_value = self._shutdown_value = float(self._invert)
self._is_static = False
self._last_clock = 0
self._pwm_max = 0.
self._cmd_queue = self._mcu.alloc_command_queue()
self._set_cmd = None
def get_mcu(self):
return self._mcu
def setup_max_duration(self, max_duration):
self._max_duration = max_duration
def setup_cycle_time(self, cycle_time):
pass
def setup_hard_pwm(self, hard_cycle_ticks):
if hard_cycle_ticks:
raise pins.error("pca9685 does not support hard_pwm parameter")
def setup_start_value(self, start_value, shutdown_value, is_static=False):
if is_static and start_value != shutdown_value:
raise pins.error("Static pin can not have shutdown value")
if self._invert:
start_value = 1. - start_value
shutdown_value = 1. - shutdown_value
self._start_value = max(0., min(1., start_value))
self._shutdown_value = max(0., min(1., shutdown_value))
self._is_static = is_static
if self._shutdown_value:
self._replicape.note_enable_on_shutdown()
def build_config(self):
self._pwm_max = self._mcu.get_constant_float("PCA9685_MAX")
cycle_ticks = self._mcu.seconds_to_clock(self._cycle_time)
if self._is_static:
self._mcu.add_config_cmd(
"set_pca9685_out bus=%d addr=%d channel=%d"
" cycle_ticks=%d value=%d" % (
self._bus, self._address, self._channel,
cycle_ticks, self._start_value * self._pwm_max))
return
self._oid = self._mcu.create_oid()
self._mcu.add_config_cmd(
"config_pca9685 oid=%d bus=%d addr=%d channel=%d cycle_ticks=%d"
" value=%d default_value=%d max_duration=%d" % (
self._oid, self._bus, self._address, self._channel, cycle_ticks,
self._start_value * self._pwm_max,
self._shutdown_value * self._pwm_max,
self._mcu.seconds_to_clock(self._max_duration)))
self._set_cmd = self._mcu.lookup_command(
"schedule_pca9685_out oid=%c clock=%u value=%hu")
def set_pwm(self, print_time, value):
clock = self._mcu.print_time_to_clock(print_time)
if self._invert:
value = 1. - value
value = int(max(0., min(1., value)) * self._pwm_max + 0.5)
self._replicape.note_enable(print_time, self._channel, not not value)
msg = self._set_cmd.encode(self._oid, clock, value)
self._mcu.send(msg, minclock=self._last_clock, reqclock=clock
, cq=self._cmd_queue)
self._last_clock = clock
def set_digital(self, print_time, value):
if value:
self.set_pwm(print_time, 1.)
else:
self.set_pwm(print_time, 0.)
class ReplicapeDACEnable:
def __init__(self, replicape, channel, pin_params):
if pin_params['type'] != 'digital_out':
raise pins.error("Replicape virtual enable pin must be digital_out")
if pin_params['invert']:
raise pins.error("Replicape virtual enable pin can not be inverted")
self.mcu = replicape.host_mcu
self.value = replicape.stepper_dacs[channel]
self.pwm = pca9685_pwm(replicape, channel, pin_params)
def get_mcu(self):
return self.mcu
def setup_max_duration(self, max_duration):
self.pwm.setup_max_duration(max_duration)
def set_digital(self, print_time, value):
if value:
self.pwm.set_pwm(print_time, self.value)
else:
self.pwm.set_pwm(print_time, 0.)
ReplicapeStepConfig = {
'disable': None,
'1': (1<<7)|(1<<5), '2': (1<<7)|(1<<5)|(1<<6), 'spread2': (1<<5),
'4': (1<<7)|(1<<5)|(1<<4), '16': (1<<7)|(1<<5)|(1<<6)|(1<<4),
'spread4': (1<<5)|(1<<4), 'spread16': (1<<7), 'stealth4': (1<<7)|(1<<6),
'stealth16': 0
}
class Replicape:
def __init__(self, printer, config):
pins.get_printer_pins(printer).register_chip('replicape', self)
revisions = {'B3': 'B3'}
config.getchoice('revision', revisions)
self.host_mcu = mcu.get_printer_mcu(printer, config.get('host_mcu'))
# Setup enable pin
self.mcu_enable = pins.setup_pin(
printer, 'digital_out', config.get('enable_pin', '!P9_41'))
self.mcu_enable.setup_max_duration(0.)
self.enabled_channels = {}
# Setup power pins
self.pins = {
"power_e": (pca9685_pwm, 5), "power_h": (pca9685_pwm, 3),
"power_hotbed": (pca9685_pwm, 4),
"power_fan0": (pca9685_pwm, 7), "power_fan1": (pca9685_pwm, 8),
"power_fan2": (pca9685_pwm, 9), "power_fan3": (pca9685_pwm, 10) }
# Setup stepper config
self.stepper_dacs = {}
shift_registers = [1] * 5
for port, name in enumerate('xyzeh'):
prefix = 'stepper_%s_' % (name,)
sc = config.getchoice(
prefix + 'microstep_mode', ReplicapeStepConfig, 'disable')
if sc is None:
continue
if config.getboolean(prefix + 'chopper_off_time_high', False):
sc |= 1<<3
if config.getboolean(prefix + 'chopper_hysteresis_high', False):
sc |= 1<<2
if config.getboolean(prefix + 'chopper_blank_time_high', True):
sc |= 1<<1
shift_registers[port] = sc
channel = port + 11
cur = config.getfloat(
prefix + 'current', above=0., maxval=REPLICAPE_MAX_CURRENT)
self.stepper_dacs[channel] = cur / REPLICAPE_MAX_CURRENT
self.pins[prefix + 'enable'] = (ReplicapeDACEnable, channel)
shift_registers.reverse()
self.host_mcu.add_config_cmd("send_spi bus=%d dev=%d msg=%s" % (
REPLICAPE_SHIFT_REGISTER_BUS, REPLICAPE_SHIFT_REGISTER_DEVICE,
"".join(["%02x" % (x,) for x in shift_registers])))
def note_enable_on_shutdown(self):
self.mcu_enable.setup_start_value(0, 1)
def note_enable(self, print_time, channel, is_enable):
if is_enable:
is_off = not self.enabled_channels
self.enabled_channels[channel] = 1
if is_off:
self.mcu_enable.set_digital(print_time, 1)
elif channel in self.enabled_channels:
del self.enabled_channels[channel]
if not self.enabled_channels:
self.mcu_enable.set_digital(print_time, 0)
def setup_pin(self, pin_params):
pin = pin_params['pin']
if pin not in self.pins:
raise pins.error("Unknown replicape pin %s" % (pin,))
pclass, channel = self.pins[pin]
return pclass(self, channel, pin_params)
######################################################################
# Setup
######################################################################
def add_printer_objects(printer, config):
if config.has_section('replicape'):
printer.add_object('replicape', Replicape(
printer, config.getsection('replicape')))
for s in config.get_prefix_sections('static_digital_output '):
printer.add_object(s.section, PrinterStaticDigitalOut(printer, s))
for s in config.get_prefix_sections('digital_output '):
printer.add_object('pin' + s.section[14:], PrinterPin(printer, s))
for s in config.get_prefix_sections('static_pwm_output '):
printer.add_object('pin' + s.section[17:], PrinterPin(printer, s))
for s in config.get_prefix_sections('pwm_output '):
printer.add_object('pin' + s.section[10:], PrinterPin(printer, s))
for s in config.get_prefix_sections('multi_pin '):
printer.add_object(s.section, PrinterMultiPin(printer, s))
for s in config.get_prefix_sections('servo '):
printer.add_object(s.section, PrinterServo(printer, s))
for s in config.get_prefix_sections('ad5206 '):
printer.add_object(s.section, ad5206(printer, s))