Gandalf/OctoPrint-Enclosure
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Code Issues 156 Pull Requests 6 Actions Packages Projects Releases 28 Wiki Activity

Merge branch 'master' into patch-1

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This commit is contained in:
Vitor de Miranda Henrique
2021-10-17 16:16:02 -05:00
committed by GitHub
parent 22c5f602c4 8af8f27131
commit 5f8bb6abe0
8 changed files with 465 additions and 63 deletions
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4
API.md
View File

@@ -144,7 +144,7 @@ Error Responses:
Endpoint: **PATCH** `/outputs/<id>`
*Note: id needs to be int (index_id)*
*Note: id needs to be int (index_id), one-based index in octoprint settings' enclosure section's `rpi_outputs` list*
Body (Content-Type: `application/json`):
```
@@ -340,4 +340,4 @@ Body: empty
Response (204): No-Content
Error Responses:
- none
- none

11
README.md
View File

@@ -42,6 +42,7 @@ Here are detailled instructions on how to setup them.
To control the enclosure temperature or get temperature triggered events, you need to install and configure a temperature sensor. This plugin can support DHT11, DHT22, AM2302, DS18B20, SI7021, BME280 and TMP102 temperature sensors.
#### DHT11, DHT22 and AM2302 sensors
Wire the sensor following the wiring diagram on the pictures on thingiverse, you can use any GPIO pin.
@@ -73,7 +74,7 @@ Note that the first argument is the temperature sensor (11, 22, or 2302), and th
#### DS18B20 sensor
Follow the wiring diagram on the pictures on thingiverse. The DS18B20 uses "1-wire" communication protocol, you need to use 4.7K to 10K resistor from the data pin to VCC, DS18B20 only works on GPIO pin number 4 by default. You also need to add OneWire support for your raspberry pi.
Follow the wiring diagram on the pictures on thingiverse. The DS18B20 uses "1-wire" communication protocol, DS18B20 only works on GPIO pin number 4 by default. You also need to add OneWire support for your raspberry pi.
Start by adding the following line to `/boot/config.txt`
@@ -91,6 +92,8 @@ You should see something like
[ 3.030368] w1-gpio onewire@0: gpio pin 4, external pullup pin -1, parasitic power 0
```
If you're using the internal pullup resistor, you'll need to enable it manually by running these Python commands. Or, you can simply configure the sensor inside of the Enclosure plugin, which will do this for you.
You should be able to test your sensor by rebooting your system with `sudo reboot`. When the Pi is back up and you're logged in again, type the commands you see below into a terminal window. When you are in the 'devices' directory, the directory starting '28-' may have a different name, so `cd` to the name of whatever directory is there.
```
@@ -106,6 +109,8 @@ The response will either have `YES` or `NO` at the end of the first line. If it
Copy the serial number, you will need to configure the plugin. Note that for the serial number includes the `28-`, for example `28-0000069834ff`.
The DS18B20 needs a pullup resistor on the data pin. On modern Pi models, you can use a resistor built into the Pi, configured in software. To do this, set the "Input Pull Resistor" option to "Input Pullup". If this doesn't work, you need to use a 4.7K to 10K resistor from the data pin to VCC.
#### SI7021, BME280, TMP102 and MCP9808 sensors
Enable I2C on your raspberry pi, depending on raspi-config version, step by step can be different:
@@ -191,7 +196,7 @@ Outputs can be set to the following types:
* Regular GPIO
* PWM GPIO
* Neopixel Control via Microcontroller
* Neopixel Control via Microcontroler
* Neopixel Control directly from raspberry pi
* Temperature and Humidity Control
* Temperature Alarm
@@ -212,7 +217,7 @@ Temperature Sensors will be used to input temperature and humidity data, they ca
GPIO inputs will trigger events for the plugin, this feature can be used to add buttons to the enclosure and cause pressing those buttons to act on the printer or other pre-configured outputs.
After selecting GPIO for the input type, and selecting output control on the action type, the button will be able to turn on / off or toggle linked regular outputs, basically being able to control your lights / fan using mechanical buttons instead of the octoprint interface. You can also use buttons to send g-code commands.
After selecting GPIO for the input type, and selecting output control on the action type, the button will be able to turn on / off or toggle linked regular_gpio outputs, basically being able to control your lights / fan using mechanical buttons instead of the octoprint interface. You can also use buttons to send g-code commands.
Selecting print control on the action type will trigger printer actions when the configured GPIO receives a signal. The actions can be Resume and Pause a print job or Change Filament. You can use the "change filament" action and set up the input GPIO according to your filament sensor, for example, if your filament sensor connects to ground when detects the end of the filament, you should choose PULL UP resistors and detect the event on the falling edge.
You can also add mechanical buttons to pause, resume and change filaments near your printer for convenience.

309
octoprint_enclosure/__init__.py
View File

@@ -21,6 +21,9 @@ import inspect
import threading
import json
import copy
from smbus2 import SMBus
from .getPiTemp import PiTemp
import struct
#Function that returns Boolean output state of the GPIO inputs / outputs
@@ -148,7 +151,7 @@ class EnclosurePlugin(octoprint.plugin.StartupPlugin, octoprint.plugin.TemplateP
self.print_complete = False
def get_settings_version(self):
return 6
return 10
def on_settings_migrate(self, target, current=None):
self._logger.warn("######### current settings version %s target settings version %s #########", current, target)
@@ -156,15 +159,46 @@ class EnclosurePlugin(octoprint.plugin.StartupPlugin, octoprint.plugin.TemplateP
self._logger.info("rpi_outputs: %s", self.rpi_outputs)
self._logger.info("rpi_inputs: %s", self.rpi_inputs)
self._logger.info("######### End Current Settings #########")
if current >= 4 and target == 6:
self._logger.warn("######### migrating settings to v6 #########")
if current >= 4 and target == 10:
self._logger.warn("######### migrating settings to v10 #########")
old_outputs = self._settings.get(["rpi_outputs"])
old_inputs = self._settings.get(["rpi_inputs"])
for rpi_output in old_outputs:
if 'shutdown_on_failed' not in rpi_output:
rpi_output['shutdown_on_failed'] = False
if 'shell_script' not in rpi_output:
rpi_output['shell_script'] = ""
if 'gpio_i2c_enabled' not in rpi_output:
rpi_output['gpio_i2c_enabled'] = False
if 'gpio_i2c_bus' not in rpi_output:
rpi_output['gpio_i2c_bus'] = 1
if 'gpio_i2c_address' not in rpi_output:
rpi_output['gpio_i2c_address'] = 1
if 'gpio_i2c_register' not in rpi_output:
rpi_output['gpio_i2c_register'] = 1
if 'gpio_i2c_data_on' not in rpi_output:
rpi_output['gpio_i2c_data_on'] = 1
if 'gpio_i2c_data_off' not in rpi_output:
rpi_output['gpio_i2c_data_off'] = 0
if 'gpio_i2c_register_status' not in rpi_output:
rpi_output['gpio_i2c_register_status'] = 1
if 'shutdown_on_error' not in rpi_output:
rpi_output['shutdown_on_error'] = False
self._settings.set(["rpi_outputs"], old_outputs)
old_inputs = self._settings.get(["rpi_inputs"])
for rpi_input in old_inputs:
if 'temp_i2c_bus' not in rpi_input:
rpi_input['temp_i2c_bus'] = 1
if 'temp_i2c_address' not in rpi_input:
rpi_input['temp_i2c_address'] = 1
if 'temp_i2c_register' not in rpi_input:
rpi_input['temp_i2c_register'] = 1
if 'show_graph_temp' not in rpi_input:
rpi_input['show_graph_temp'] = False
if 'show_graph_humidity' not in rpi_input:
rpi_input['show_graph_humidity'] = False
self._settings.set(["rpi_inputs"], old_inputs)
else:
self._logger.warn("######### settings not compatible #########")
self._settings.set(["rpi_outputs"], [])
@@ -191,7 +225,11 @@ class EnclosurePlugin(octoprint.plugin.StartupPlugin, octoprint.plugin.TemplateP
ConfiguredAs = "Output"
ActiveLow = CheckInputActiveLow(rpi_output['active_low'])
pin = self.to_int(rpi_output['gpio_pin'])
val = PinState_Human(pin,ActiveLow)
if rpi_output['gpio_i2c_enabled']:
b = self.gpio_i2c_input(rpi_output, ActiveLow)
val = " ON " if b else " OFF "
else:
val = PinState_Human(pin,ActiveLow)
label = rpi_output['label']
Resp.append(dict(Configured_As=ConfiguredAs, label=label, GPIO_Pin=pin, Active_Low=ActiveLow, State=val))
if MatchFound == False:
@@ -279,7 +317,11 @@ class EnclosurePlugin(octoprint.plugin.StartupPlugin, octoprint.plugin.TemplateP
label = rpi_output['label']
pin = self.to_int(rpi_output['gpio_pin'])
ActiveLow = rpi_output['active_low']
val = PinState_Human(pin,ActiveLow)
if rpi_output['gpio_i2c_enabled']:
b = self.gpio_i2c_input(rpi_output, ActiveLow)
val = " ON " if b else " OFF "
else:
val = PinState_Human(pin,ActiveLow)
outputs.append(dict(index_id=index, label=label, GPIO_Pin=pin, State=val))
return Response(json.dumps(outputs), mimetype='application/json')
@@ -290,7 +332,10 @@ class EnclosurePlugin(octoprint.plugin.StartupPlugin, octoprint.plugin.TemplateP
if identifier == self.to_int(rpi_output['index_id']):
out = copy.deepcopy(rpi_output)
pin = self.to_int(rpi_output['gpio_pin'])
out['current_value'] = PinState_Boolean(pin, rpi_output['active_low'] )
if rpi_output['gpio_i2c_enabled']:
out['current_value'] = self.gpio_i2c_input(rpi_output, rpi_output['active_low'])
else:
out['current_value'] = PinState_Boolean(pin, rpi_output['active_low'] )
return Response(json.dumps(out), mimetype='application/json')
return make_response('', 404)
@@ -313,7 +358,10 @@ class EnclosurePlugin(octoprint.plugin.StartupPlugin, octoprint.plugin.TemplateP
for rpi_output in self.rpi_outputs:
if identifier == self.to_int(rpi_output['index_id']):
val = (not value) if rpi_output['active_low'] else value
self.write_gpio(self.to_int(rpi_output['gpio_pin']), val)
if rpi_output['gpio_i2c_enabled']:
self.gpio_i2c_write(rpi_output, val)
else:
self.write_gpio(self.to_int(rpi_output['gpio_pin']), val)
return make_response('', 204)
@@ -520,7 +568,10 @@ class EnclosurePlugin(octoprint.plugin.StartupPlugin, octoprint.plugin.TemplateP
if rpi_output['output_type'] == 'regular':
pin = self.to_int(rpi_output['gpio_pin'])
ActiveLow = rpi_output['active_low']
val = PinState_Boolean(pin, ActiveLow)
if rpi_output['gpio_i2c_enabled']:
val = self.gpio_i2c_input(rpi_output, rpi_output['active_low'])
else:
val = PinState_Boolean(pin, ActiveLow)
val2 = PinState_Human(pin, ActiveLow)
index = self.to_int(rpi_output['index_id'])
gpio_status.append(dict(index_id=index, status=val, State=val2))
@@ -533,7 +584,10 @@ class EnclosurePlugin(octoprint.plugin.StartupPlugin, octoprint.plugin.TemplateP
for rpi_output in self.rpi_outputs:
if self.to_int(index) == self.to_int(rpi_output['index_id']):
val = (not value) if rpi_output['active_low'] else value
self.write_gpio(self.to_int(rpi_output['gpio_pin']), val)
if rpi_output['gpio_i2c_enabled']:
self.gpio_i2c_write(rpi_output, val)
else:
self.write_gpio(self.to_int(rpi_output['gpio_pin']), val)
return jsonify(success=True)
@octoprint.plugin.BlueprintPlugin.route("/sendShellCommand", methods=["GET"])
@@ -642,7 +696,62 @@ class EnclosurePlugin(octoprint.plugin.StartupPlugin, octoprint.plugin.TemplateP
# DEPREACTION END
# GPIO over i2c
def gpio_i2c_input(self, output, active_low=None):
state = False
try:
i2cbus = self.to_int(output['gpio_i2c_bus'])
i2caddr = self.to_int(output['gpio_i2c_address'])
i2creg = self.to_int(output['gpio_i2c_register_status'])
data_on = self.to_int(output['gpio_i2c_data_on'])
with SMBus(i2cbus) as bus:
data = bus.read_i2c_block_data(i2caddr, i2creg, 1)
if data[0] == data_on:
state = True
self._logger.debug("gpio_i2c_input(i2cbus=%s, i2caddr=%s, i2creg=%s, data_on=%s) data == %s",
i2cbus, i2caddr, i2creg, data_on, data)
if active_low is None and state: return state
except Exception as ex:
self.log_error(ex)
if active_low and not state: return True
if not active_low and state: return True
return False
def gpio_i2c_write(self, output, state, queue_id=None):
try:
i2cbus = self.to_int(output['gpio_i2c_bus'])
i2caddr = self.to_int(output['gpio_i2c_address'])
i2creg = self.to_int(output['gpio_i2c_register'])
data_on = self.to_int(output['gpio_i2c_data_on'])
data_off = self.to_int(output['gpio_i2c_data_off'])
with SMBus(i2cbus) as bus:
data = []
if state:
data.append(data_on)
else:
data.append(data_off)
bus.write_i2c_block_data(i2caddr, i2creg, data)
if queue_id is not None:
self._logger.debug("Running scheduled queue id %s", queue_id)
self._logger.debug("Writing on GPIO (i2c): %s/%s value %s", output['gpio_i2c_address'], output['gpio_i2c_register'], state)
self.update_ui()
if queue_id is not None:
self.stop_queue_item(queue_id)
except Exception as ex:
template = "An exception of type {0} occurred on {1} when writing on i2c address {2}, reg {3}. Arguments:\n{4!r}"
message = template.format(type(ex).__name__, inspect.currentframe().f_code.co_name, output['gpio_i2c_address'], output['gpio_i2c_register'], ex.args)
self._logger.warn(message)
pass
def send_neopixel_command(self, led_pin, led_count, led_brightness, red, green, blue, address, neopixel_dirrect,
@@ -720,10 +829,13 @@ class EnclosurePlugin(octoprint.plugin.StartupPlugin, octoprint.plugin.TemplateP
index_id = self.to_int(output['index_id'])
if output['output_type'] == 'regular':
if first_run:
current_value = False
if output['gpio_i2c_enabled']:
current_value = self.gpio_i2c_input(output)
else:
current_value = (not GPIO.input(gpio_pin)) if output['active_low'] else GPIO.input(gpio_pin)
if first_run:
current_value = False
else:
current_value = (not GPIO.input(gpio_pin)) if output['active_low'] else GPIO.input(gpio_pin)
if current_value:
time_delay = self.to_int(output['toggle_timer_off'])
@@ -731,12 +843,18 @@ class EnclosurePlugin(octoprint.plugin.StartupPlugin, octoprint.plugin.TemplateP
time_delay = self.to_int(output['toggle_timer_on'])
if not self.print_complete:
self.write_gpio(gpio_pin, not current_value)
if output['gpio_i2c_enabled']:
self.gpio_i2c_write(output, not current_value)
else:
self.write_gpio(gpio_pin, not current_value)
thread = threading.Timer(time_delay, self.toggle_output, args=[index_id])
thread.start()
else:
off_value = True if output['active_low'] else False
self.write_gpio(gpio_pin, off_value)
if output['gpio_i2c_enabled']:
self.gpio_i2c_write(output, off_value)
else:
self.write_gpio(gpio_pin, off_value)
self.update_ui_outputs()
return
@@ -810,11 +928,17 @@ class EnclosurePlugin(octoprint.plugin.StartupPlugin, octoprint.plugin.TemplateP
shutdown = output['auto_shutdown']
if output['output_type'] == 'regular':
val = GPIO.input(pin) if not output['active_low'] else (not GPIO.input(pin))
if output['gpio_i2c_enabled']:
val = self.gpio_i2c_input(output)
else:
val = GPIO.input(pin) if not output['active_low'] else (not GPIO.input(pin))
regular_status.append(
dict(index_id=index, status=val, auto_startup=startup, auto_shutdown=shutdown))
if output['output_type'] == 'temp_hum_control':
val = GPIO.input(pin) if not output['active_low'] else (not GPIO.input(pin))
if output['gpio_i2c_enabled']:
val = self.gpio_i2c_input(output)
else:
val = GPIO.input(pin) if not output['active_low'] else (not GPIO.input(pin))
temp_control_status.append(
dict(index_id=index, status=val, auto_startup=startup, auto_shutdown=shutdown))
if output['output_type'] == 'neopixel_indirect' or output['output_type'] == 'neopixel_direct':
@@ -865,6 +989,9 @@ class EnclosurePlugin(octoprint.plugin.StartupPlugin, octoprint.plugin.TemplateP
temp, hum = self.read_bme280_temp(sensor['temp_sensor_address'])
elif sensor['temp_sensor_type'] == "am2320":
temp, hum = self.read_am2320_temp() # sensor has fixed address
elif sensor['temp_sensor_type'] == "rpi":
temp = self.read_rpi_temp() # rpi CPU Temp
hum = 0
elif sensor['temp_sensor_type'] == "si7021":
temp, hum = self.read_si7021_temp(sensor['temp_sensor_address'], sensor['temp_sensor_i2cbus'])
elif sensor['temp_sensor_type'] == "tmp102":
@@ -876,6 +1003,10 @@ class EnclosurePlugin(octoprint.plugin.StartupPlugin, octoprint.plugin.TemplateP
elif sensor['temp_sensor_type'] == "mcp9808":
temp = self.read_mcp_temp(sensor['temp_sensor_address'])
hum = 0
elif sensor['temp_sensor_type'] == "temp_raw_i2c":
temp, hum = self.read_raw_i2c_temp(sensor)
elif sensor['temp_sensor_type'] == "hum_raw_i2c":
hum, temp = self.read_raw_i2c_temp(sensor)
else:
self._logger.info("temp_sensor_type no match")
temp = None
@@ -901,8 +1032,12 @@ class EnclosurePlugin(octoprint.plugin.StartupPlugin, octoprint.plugin.TemplateP
for rpi_controlled_output in self.rpi_outputs:
if self.to_int(temperature_alarm['controlled_io']) == self.to_int(
rpi_controlled_output['index_id']):
val = GPIO.LOW if temperature_alarm['controlled_io_set_value'] == 'low' else GPIO.HIGH
self.write_gpio(self.to_int(rpi_controlled_output['gpio_pin']), val)
if rpi_controlled_output['gpio_i2c_enabled']:
val = False if temperature_alarm['controlled_io_set_value'] == 'low' else True
self.gpio_i2c_write(rpi_controlled_output, val)
else:
val = GPIO.LOW if temperature_alarm['controlled_io_set_value'] == 'low' else GPIO.HIGH
self.write_gpio(self.to_int(rpi_controlled_output['gpio_pin']), val)
for notification in self.notifications:
if notification['temperatureAction']:
msg = ("Temperature action: enclosure temperature exceed " + temperature_alarm[
@@ -920,6 +1055,32 @@ class EnclosurePlugin(octoprint.plugin.StartupPlugin, octoprint.plugin.TemplateP
return return_value, return_value
def read_raw_i2c_temp(self, sensor):
try:
i2cbus = self.to_int(sensor['temp_i2c_bus'])
i2caddr = self.to_int(sensor['temp_i2c_address'])
i2creg = self.to_int(sensor['temp_i2c_register'])
with SMBus(i2cbus) as bus:
data = bus.read_i2c_block_data(i2caddr, i2creg, 8)
fval1 = struct.unpack('f', bytearray(data[0:4]))[0]
if fval1 != fval1:
fval1 = 0
fval2 = struct.unpack('f', bytearray(data[4:8]))[0]
if fval2 != fval2:
fval2 = 0
self._logger.debug("read_raw_i2c_temp(i2cbus=%s, i2caddr=%s, i2creg=%s) data == %s (%s, %s)",
i2cbus, i2caddr, i2creg, data, fval1, fval2)
return (fval1, fval2)
except Exception as ex:
template = "An exception of type {0} occurred on {1} when reading on i2c address {2}, reg {3}. Arguments:\n{4!r}"
message = template.format(type(ex).__name__, inspect.currentframe().f_code.co_name, i2caddr, i2creg, ex.args)
self._logger.warn(message)
return str(-1)
def read_mcp_temp(self, address):
try:
script = os.path.dirname(os.path.realpath(__file__)) + "/mcp9808.py"
@@ -943,7 +1104,7 @@ class EnclosurePlugin(octoprint.plugin.StartupPlugin, octoprint.plugin.TemplateP
sudo_str = "sudo "
else:
sudo_str = ""
cmd = sudo_str + "python " + script + str(sensor) + " " + str(pin)
cmd = sudo_str + "python3 " + script + str(sensor) + " " + str(pin)
if self._settings.get(["debug_temperature_log"]) is True:
self._logger.debug("Temperature dht cmd: %s", cmd)
stdout = (Popen(cmd, shell=True, stdout=PIPE).stdout).read()
@@ -998,6 +1159,19 @@ class EnclosurePlugin(octoprint.plugin.StartupPlugin, octoprint.plugin.TemplateP
"Failed to execute python scripts, try disabling use SUDO on advanced section of the plugin.")
self.log_error(ex)
return (0, 0)
def read_rpi_temp(self):
try:
pitemp = PiTemp()
temp = pitemp.getTemp()
if self._settings.get(["debug_temperature_log"]) is True:
self._logger.debug("Pi CPU result: %s", temp)
return temp
except Exception as ex:
self._logger.info(
"Failed to get pi cpu temperature")
self.log_error(ex)
return 0
def read_si7021_temp(self, address, i2cbus):
try:
@@ -1173,7 +1347,10 @@ class EnclosurePlugin(octoprint.plugin.StartupPlugin, octoprint.plugin.TemplateP
if current_status:
self._logger.info("Turning gpio to control temperature on.")
val = False if temp_hum_control['active_low'] else True
self.write_gpio(self.to_int(temp_hum_control['gpio_pin']), val)
if temp_hum_control['gpio_i2c_enabled']:
self.gpio_i2c_write(temp_hum_control, val)
else:
self.write_gpio(self.to_int(temp_hum_control['gpio_pin']), val)
else:
index_id = temp_hum_control['index_id']
if index_id in self.waiting_temperature:
@@ -1184,7 +1361,10 @@ class EnclosurePlugin(octoprint.plugin.StartupPlugin, octoprint.plugin.TemplateP
self._logger.info("Turning gpio to control temperature off.")
val = True if temp_hum_control['active_low'] else False
self.write_gpio(self.to_int(temp_hum_control['gpio_pin']), val)
if temp_hum_control['gpio_i2c_enabled']:
self.gpio_i2c_write(temp_hum_control, val)
else:
self.write_gpio(self.to_int(temp_hum_control['gpio_pin']), val)
for control_status in self.temp_hum_control_status:
if control_status['index_id'] == temp_hum_control['index_id']:
control_status['status'] = current_status
@@ -1194,7 +1374,7 @@ class EnclosurePlugin(octoprint.plugin.StartupPlugin, octoprint.plugin.TemplateP
def log_error(self, ex):
template = "An exception of type {0} occurred on {1}. Arguments:\n{2!r}"
message = template.format(type(ex).__name__, inspect.currentframe().f_code.co_name, ex.args)
self._logger.warn(message)
self._logger.warn(message, exc_info = True)
def setup_gpio(self):
try:
@@ -1202,8 +1382,9 @@ class EnclosurePlugin(octoprint.plugin.StartupPlugin, octoprint.plugin.TemplateP
set_mode = GPIO.BOARD if self._settings.get(["use_board_pin_number"]) else GPIO.BCM
if current_mode is None:
outputs = list(filter(
lambda item: item['output_type'] == 'regular' or item['output_type'] == 'pwm' or item[
'output_type'] == 'temp_hum_control' or item['output_type'] == 'neopixel_direct',
lambda item: (item['output_type'] == 'regular' or item['output_type'] == 'pwm' or item[
'output_type'] == 'temp_hum_control' or item['output_type'] == 'neopixel_direct') and
item['gpio_i2c_enabled'] == False,
self.rpi_outputs))
inputs = list(filter(lambda item: item['input_type'] == 'gpio', self.rpi_inputs))
gpios = outputs + inputs
@@ -1227,8 +1408,9 @@ class EnclosurePlugin(octoprint.plugin.StartupPlugin, octoprint.plugin.TemplateP
try:
for gpio_out in list(filter(
lambda item: item['output_type'] == 'regular' or item['output_type'] == 'pwm' or item[
'output_type'] == 'temp_hum_control' or item['output_type'] == 'neopixel_direct',
lambda item: (item['output_type'] == 'regular' or item['output_type'] == 'pwm' or item[
'output_type'] == 'temp_hum_control' or item['output_type'] == 'neopixel_direct') and
item['gpio_i2c_enabled'] == False,
self.rpi_outputs)):
gpio_pin = self.to_int(gpio_out['gpio_pin'])
if gpio_pin not in self.rpi_outputs_not_changed:
@@ -1260,7 +1442,8 @@ class EnclosurePlugin(octoprint.plugin.StartupPlugin, octoprint.plugin.TemplateP
try:
for gpio_out in list(
filter(lambda item: item['output_type'] == 'regular' or item['output_type'] == 'temp_hum_control',
filter(lambda item: (item['output_type'] == 'regular' or item['output_type'] == 'temp_hum_control') and
item['gpio_i2c_enabled'] == False,
self.rpi_outputs)):
initial_value = GPIO.HIGH if gpio_out['active_low'] else GPIO.LOW
pin = self.to_int(gpio_out['gpio_pin'])
@@ -1304,6 +1487,16 @@ class EnclosurePlugin(octoprint.plugin.StartupPlugin, octoprint.plugin.TemplateP
if (rpi_input['action_type'] == 'printer_control' and rpi_input['printer_action'] != 'filament'):
GPIO.add_event_detect(gpio_pin, edge, callback=self.handle_printer_action, bouncetime=200)
self._logger.info("Adding PRINTER CONTROL event detect on pin %s with edge: %s", gpio_pin, edge)
for rpi_input in list(filter(lambda item: item['input_type'] == 'temperature_sensor', self.rpi_inputs)):
gpio_pin = self.to_int(rpi_input['gpio_pin'])
if rpi_input['input_pull_resistor'] == 'input_pull_up':
pull_resistor = GPIO.PUD_UP
elif rpi_input['input_pull_resistor'] == 'input_pull_down':
pull_resistor = GPIO.PUD_DOWN
else:
pull_resistor = GPIO.PUD_OFF
GPIO.setup(gpio_pin, GPIO.IN, pull_up_down=pull_resistor)
except Exception as ex:
self.log_error(ex)
@@ -1387,8 +1580,12 @@ class EnclosurePlugin(octoprint.plugin.StartupPlugin, octoprint.plugin.TemplateP
rpi_output = [r_out for r_out in self.rpi_outputs if
self.to_int(r_out['index_id']) == controlled_io].pop()
if rpi_output['output_type'] == 'regular':
val = GPIO.LOW if rpi_input['controlled_io_set_value'] == 'low' else GPIO.HIGH
self.write_gpio(self.to_int(rpi_output['gpio_pin']), val)
if rpi_output['gpio_i2c_enabled']:
val = False if rpi_input['controlled_io_set_value'] == 'low' else True
self.gpio_i2c_write(rpi_output, val)
else:
val = GPIO.LOW if rpi_input['controlled_io_set_value'] == 'low' else GPIO.HIGH
self.write_gpio(self.to_int(rpi_output['gpio_pin']), val)
except Exception as ex:
self.log_error(ex)
pass
@@ -1420,7 +1617,10 @@ class EnclosurePlugin(octoprint.plugin.StartupPlugin, octoprint.plugin.TemplateP
self.to_int(rpi_output['gpio_pin'])) == GPIO.HIGH else GPIO.HIGH
else:
val = GPIO.LOW if rpi_input['controlled_io_set_value'] == 'low' else GPIO.HIGH
self.write_gpio(self.to_int(rpi_output['gpio_pin']), val)
if rpi_output['gpio_i2c_enabled']:
self.gpio_i2c_write(rpi_output, val)
else:
self.write_gpio(self.to_int(rpi_output['gpio_pin']), val)
for notification in self.notifications:
if notification['gpioAction']:
msg = "GPIO control action caused by input " + str(
@@ -1636,12 +1836,29 @@ class EnclosurePlugin(octoprint.plugin.StartupPlugin, octoprint.plugin.TemplateP
if event == Events.PRINT_DONE:
for notification in self.notifications:
if notification['printFinish']:
file_name = os.path.basename(payload["file"])
file_name = os.path.basename(payload["path"])
elapsed_time_in_seconds = payload["time"]
elapsed_time = octoprint.util.get_formatted_timedelta(timedelta(seconds=elapsed_time_in_seconds))
msg = "Print job finished: " + file_name + "finished printing in " + file_name, elapsed_time
self.send_notification(msg)
if event in (Events.ERROR, Events.DISCONNECTED):
self._logger.info("Detected Error or Disconnect in %s will call listeners for shutdown_on_error!", event)
for rpi_output in self.rpi_outputs:
if rpi_output['shutdown_on_error']:
self._logger.debug("Schedule shutdown for: %s", rpi_output["index_id"])
self.schedule_auto_shutdown_outputs(rpi_output, 0)
self.run_tasks()
if event == Events.PRINTER_STATE_CHANGED:
if "error" in payload["state_string"].lower():
self._logger.info("Detected Error in %s id: %s state: %s will call listeners for shutdown_on_error!", event, payload["state_id"], payload["state_string"])
for rpi_output in self.rpi_outputs:
if rpi_output['shutdown_on_error']:
self._logger.debug("Schedule shutdown for: %s", rpi_output["index_id"])
self.schedule_auto_shutdown_outputs(rpi_output, 0)
self.run_tasks()
def run_tasks(self):
for task in self.event_queue:
if not task['thread'].is_alive():
@@ -1685,7 +1902,10 @@ class EnclosurePlugin(octoprint.plugin.StartupPlugin, octoprint.plugin.TemplateP
gpio = self.to_int(rpi_output['gpio_pin'])
if rpi_output['output_type'] == 'regular':
value = False if rpi_output['active_low'] else True
self.write_gpio(gpio, value)
if rpi_output['gpio_i2c_enabled']:
self.gpio_i2c_write(rpi_output, value)
else:
self.write_gpio(gpio, value)
if rpi_output['output_type'] == 'ledstrip':
self.ledstrip_set_rgb(rpi_output)
if rpi_output['output_type'] == 'pwm' and not rpi_output['pwm_temperature_linked']:
@@ -1788,8 +2008,12 @@ class EnclosurePlugin(octoprint.plugin.StartupPlugin, octoprint.plugin.TemplateP
self._logger.debug("Scheduling regular output id %s on %s delay_seconds", queue_id, delay_seconds)
thread = threading.Timer(delay_seconds, self.write_gpio,
args=[self.to_int(rpi_output['gpio_pin']), value, queue_id])
if rpi_output['gpio_i2c_enabled']:
thread = threading.Timer(delay_seconds, self.gpio_i2c_write,
args=[rpi_output, value, queue_id])
else:
thread = threading.Timer(delay_seconds, self.write_gpio,
args=[self.to_int(rpi_output['gpio_pin']), value, queue_id])
self.event_queue.append(dict(queue_id=queue_id, thread=thread))
@@ -1904,7 +2128,10 @@ class EnclosurePlugin(octoprint.plugin.StartupPlugin, octoprint.plugin.TemplateP
set_value = self.constrain(set_value, 0, 1)
value = True if set_value == 1 else False
value = (not value) if output['active_low'] else value
self.write_gpio(self.to_int(output['gpio_pin']), value)
if output['gpio_i2c_enabled']:
self.gpio_i2c_write(output, value)
else:
self.write_gpio(self.to_int(output['gpio_pin']), value)
comm_instance._log("Setting REGULAR output %s to value %s" % (index_id, value))
return
if output['output_type'] == 'pwm':
@@ -1944,6 +2171,15 @@ class EnclosurePlugin(octoprint.plugin.StartupPlugin, octoprint.plugin.TemplateP
comm_instance._log("Setting TEMP/HUM control output %s to value %s" % (index_id, set_value))
return
def get_graph_data(self, comm, parsed_temps):
for sensor in list(filter(lambda item: item['input_type'] == 'temperature_sensor', self.rpi_inputs)):
if sensor["show_graph_temp"]:
parsed_temps[str(sensor["label"])] = (sensor['temp_sensor_temp'], None)
if sensor["show_graph_humidity"]:
parsed_temps[str(sensor["label"])+" Humidity"] = (sensor['temp_sensor_humidity'], None)
return parsed_temps
__plugin_name__ = "Enclosure Plugin"
__plugin_pythoncompat__ = ">=2.7,<4"
@@ -1956,5 +2192,6 @@ def __plugin_load__():
global __plugin_hooks__
__plugin_hooks__ = {
"octoprint.comm.protocol.gcode.queuing" : __plugin_implementation__.hook_gcode_queuing,
"octoprint.plugin.softwareupdate.check_config": __plugin_implementation__.get_update_information
"octoprint.plugin.softwareupdate.check_config": __plugin_implementation__.get_update_information,
"octoprint.comm.protocol.temperatures.received": (__plugin_implementation__.get_graph_data, 1)
}

16
octoprint_enclosure/getDHTTemp.py
View File

@@ -1,19 +1,23 @@
import sys
import Adafruit_DHT
import adafruit_dht
# Parse command line parameters.
sensor_args = { '11': Adafruit_DHT.DHT11,
'22': Adafruit_DHT.DHT22,
'2302': Adafruit_DHT.AM2302 }
sensor_args = {
'11': adafruit_dht.DHT11,
'22': adafruit_dht.DHT22,
'2302': adafruit_dht.DHT22
}
if len(sys.argv) == 3 and sys.argv[1] in sensor_args:
sensor = sensor_args[sys.argv[1]]
pin = sys.argv[2]
else:
sys.exit(1)
humidity, temperature = Adafruit_DHT.read_retry(sensor, pin,2,0.5)
dht_dev = sensor(pin)
humidity = dht_dev.humidity
temperature = dht_dev.temperature
if humidity is not None and temperature is not None:
print('{0:0.1f} | {1:0.1f}'.format(temperature, humidity))

10
octoprint_enclosure/getPiTemp.py Normal file
View File

@@ -0,0 +1,10 @@
from gpiozero import CPUTemperature
import ctypes
import struct
import sys
class PiTemp:
def getTemp(self):
temp = CPUTemperature()
return '{0:0.1f}'.format(temp.temperature)

18
octoprint_enclosure/static/js/enclosure.js
View File

@@ -56,7 +56,7 @@ $(function () {
self.notifications = ko.observableArray([]);
self.humidityCapableSensor = function(sensor){
if (['11', '22', '2302', 'bme280', 'am2320', 'si7021'].indexOf(sensor) >= 0){
if (['11', '22', '2302', 'bme280', 'am2320', 'si7021', 'hum_raw_i2c', 'temp_raw_i2c'].indexOf(sensor) >= 0){
return true;
}
return false;
@@ -421,7 +421,14 @@ $(function () {
ledstrip_gpio_dat: ko.observable(""),
microcontroller_address: ko.observable(0),
gcode: ko.observable(""),
show_on_navbar: ko.observable(false)
show_on_navbar: ko.observable(false),
gpio_i2c_enabled: ko.observable(false),
gpio_i2c_bus: ko.observable(1),
gpio_i2c_address: ko.observable(1),
gpio_i2c_register: ko.observable(1),
gpio_i2c_data_on: ko.observable(1),
gpio_i2c_data_off: ko.observable(0),
gpio_i2c_register_status: ko.observable(1)
});
};
@@ -456,7 +463,12 @@ $(function () {
temp_sensor_navbar: ko.observable(true),
filament_sensor_timeout: ko.observable(120),
filament_sensor_enabled: ko.observable(true),
temp_sensor_i2cbus: ko.observable(1)
temp_sensor_i2cbus: ko.observable(1),
temp_i2c_bus: ko.observable(1),
temp_i2c_address: ko.observable(1),
temp_i2c_register: ko.observable(1),
show_graph_temp: ko.observable(false),
show_graph_humidity: ko.observable(false)
});
};

158
octoprint_enclosure/templates/enclosure_settings.jinja2
View File

@@ -1,10 +1,10 @@
<h4>{{ _('Raspberry Pi Outputs') }}</h4>
<p>
Configure all
<strong>outputs</strong>. Outputs can be everything that do actions based on UI button presses or automatic events or alarms.
<strong>outputs</strong>. Outputs can be everything that performs actions based on UI button presses, or automatic events or alarms.
</p>
<p>
Example of possible outputs are gpio pins, neopixel LED's, temperature control or sending gcode to the printer.
Example of possible outputs are GPIO pins, neopixel LED's, temperature control or sending gcode to the printer.
</p>
<form class="form-horizontal">
<div data-bind="foreach: settingsViewModel.settings.plugins.enclosure.rpi_outputs">
@@ -91,7 +91,7 @@
</div>
</div>
<!-- /ko -->
<!-- ko ifnot: ($data.output_type() == "gcode_output" || $data.output_type() == "temperature_alarm" || $data.output_type() == "shell_output" || $data.output_type() == "ledstrip") -->
<!-- ko ifnot: ($data.output_type() == "gcode_output" || $data.output_type() == "temperature_alarm" || $data.output_type() == "shell_output" || $data.output_type() == "ledstrip" || ($data.output_type() == "regular" && $data.gpio_i2c_enabled)) -->
<div class="control-group">
<label class="control-label">{{ _('IO Number') }}</label>
<div class="controls">
@@ -221,7 +221,7 @@
<label class="checkbox">
<input type="checkbox" data-bind="checked: auto_shutdown"> {{ _('Auto Shutdown') }}
</label>
<span class="help-inline">Choose if output should turn off automatomatically when print finishes</span>
<span class="help-inline">Choose if output should turn off automatically when print finishes</span>
</div>
</div>
<!-- /ko -->
@@ -231,7 +231,7 @@
<label class="checkbox">
<input type="checkbox" data-bind="checked: shutdown_on_failed"> {{ _('Shutdown on Failed or Canceled') }}
</label>
<span class="help-inline">Choose if output should turn off automatomatically when print is canceled or fails</span>
<span class="help-inline">Choose if output should turn off automatically when print is canceled or fails</span>
</div>
</div>
@@ -250,6 +250,16 @@
</div>
</div>
<!-- /ko -->
<!-- ko ifnot: ($data.output_type() == "gcode_output" || $data.output_type() == "temperature_alarm" || $data.output_type() == "shell_output") -->
<div class="control-group">
<div class="controls">
<label class="checkbox">
<input type="checkbox" data-bind="checked: shutdown_on_error"> {{ _('Auto Shutdown on Serial Connection Error') }}
</label>
<span class="help-inline">Choose if output should turn off automatically when an error or disconnect was detected.</span>
</div>
</div>
<!-- /ko -->
<!-- /ko -->
<!-- ko if: ($data.output_type() == "regular" || $data.output_type() == "temp_hum_control" ) -->
@@ -263,6 +273,69 @@
</div>
<!-- /ko -->
<!-- ko if: ($data.output_type() == "regular" || $data.output_type() == "temp_hum_control" ) -->
<div class="control-group">
<div class="controls">
<label class="checkbox">
<input type="checkbox" data-bind="checked: gpio_i2c_enabled"> {{ _('GPIO over I2C') }}
</label>
<span class="help-inline">Active low means that the GPIO will turn on when receive a low signal (ground) from Raspberry PI</span>
</div>
</div>
<!-- /ko -->
<!-- ko if: $data.gpio_i2c_enabled -->
<div class="control-group">
<label class="control-label" for="settings-enclosure-gpio-i2c-bus">{{ _('I2C Bus') }}</label>
<div class="controls">
<input type="text" class="input-block-level" data-bind="value: gpio_i2c_bus" id="settings-enclosure-gpio-i2c-bus">
<span class="help-inline">This value should remain 1 unless you've used dtoverlay=i2c-gpio or you are using another bus.
</span>
</div>
</div>
<div class="control-group">
<label class="control-label" for="settings-enclosure-gpio-i2c-addr">{{ _('I2C Address') }}</label>
<div class="controls">
<input type="text" class="input-block-level" data-bind="value: gpio_i2c_address" id="settings-enclosure-gpio-i2c-addr">
<span class="help-inline">I2C address in HEX value, you can find it by running
<code>i2cdetect -y 1</code> on your Raspberry Pi</span>
</div>
</div>
<div class="control-group">
<label class="control-label" for="settings-enclosure-gpio-i2c-reg">{{ _('I2C Register') }}</label>
<div class="controls">
<input type="text" class="input-block-level" data-bind="value: gpio_i2c_register" id="settings-enclosure-gpio-i2c-reg">
<span class="help-inline">I2C register in HEX value</span>
</div>
</div>
<div class="control-group">
<label class="control-label" for="settings-enclosure-gpio-i2c-data-on">{{ _('I2C ON data') }}</label>
<div class="controls">
<input type="text" class="input-block-level" data-bind="value: gpio_i2c_data_on" id="settings-enclosure-gpio-i2c-data-on">
<span class="help-inline">I2C data to write in HEX value when ON</span>
</div>
</div>
<div class="control-group">
<label class="control-label" for="settings-enclosure-gpio-i2c-data-off">{{ _('I2C OFF data') }}</label>
<div class="controls">
<input type="text" class="input-block-level" data-bind="value: gpio_i2c_data_off" id="settings-enclosure-gpio-i2c-data-off">
<span class="help-inline">I2C data to write in HEX value when OFF</span>
</div>
</div>
<div class="control-group">
<label class="control-label" for="settings-enclosure-gpio-i2c-reg-read">{{ _('I2C Register (read status)') }}</label>
<div class="controls">
<input type="text" class="input-block-level" data-bind="value: gpio_i2c_register_status" id="settings-enclosure-gpio-i2c-reg-read">
<span class="help-inline">I2C register for reading gpio state in HEX value</span>
</div>
</div>
<!-- /ko -->
<!-- ko if: ($data.output_type() == "regular" || $data.output_type() == "gcode_output" || $data.output_type() == "shell_output" || $data.output_type() == "ledstrip") -->
<div class="control-group">
<div class="controls">
@@ -539,7 +612,10 @@
<option value="am2320">AM2320</option>
<option value="tmp102">TMP102</option>
<option value="max31855">MAX31855</option>
<option value="rpi">Raspberry Pi CPU</option>
<option value="mcp9808">MCP9808</option>
<option value="temp_raw_i2c">Raw I2C Temperature</option>
<option value="hum_raw_i2c">Raw I2C Humidity</option>
</select>
<span class="help-inline">
<span class="label label-important">Attention</span> You need to install and configure the necessary libraries for the temperature sensor, check
@@ -547,6 +623,35 @@
<a href=" https://github.com/vitormhenrique/OctoPrint-Enclosure">github</a> page</span>
</div>
</div>
<!-- ko if: ($data.temp_sensor_type() == "temp_raw_i2c") || ($data.temp_sensor_type() == "hum_raw_i2c") -->
<div class="control-group">
<label class="control-label" for="settings-enclosure-temp-i2c-bus">{{ _('I2C Bus') }}</label>
<div class="controls">
<input type="text" class="input-block-level" data-bind="value: temp_i2c_bus" id="settings-enclosure-temp-i2c-bus">
<span class="help-inline">This value should remain 1 unless you've used dtoverlay=i2c-gpio or you are using another bus.
</span>
</div>
</div>
<div class="control-group">
<label class="control-label" for="settings-enclosure-temp-i2c-addr">{{ _('I2C Address') }}</label>
<div class="controls">
<input type="text" class="input-block-level" data-bind="value: temp_i2c_address" id="settings-enclosure-temp-i2c-addr">
<span class="help-inline">I2C address in HEX value, you can find it by running
<code>i2cdetect -y 1</code> on your Raspberry Pi</span>
</div>
</div>
<div class="control-group">
<label class="control-label" for="settings-enclosure-temp-i2c-reg">{{ _('I2C Register') }}</label>
<div class="controls">
<input type="text" class="input-block-level" data-bind="value: temp_i2c_register" id="settings-enclosure-temp-i2c-reg">
<span class="help-inline">I2C register in HEX value</span>
</div>
</div>
<!-- /ko -->
<!-- ko if: ($data.temp_sensor_type() == "18b20") -->
<div class="control-group">
<label class="control-label" for="settings-enclosure-dhtPin">{{ _('Sensor Pin') }}</label>
@@ -555,6 +660,16 @@
<span class="help-inline">GPIO pin for temperature sensor, recommended to use 4 as DS18B20 has default support to pin #4 (BCM)</span>
</div>
</div>
<div class"control-group">
<label class="control-label" for="settings-enclosure-dhtPin">{{ _('Input Pull Resistor') }}</label>
<div class="controls">
<select data-bind="value: input_pull_resistor">
<option value="" selected="selected">None</option>
<option value="input_pull_up">Input Pullup</option>
</select>
<span class="help-inline">Whether to enable the built-in pullup for this temperature sensor. If set, then no external pullup is needed.</span>
</div>
</div>
<div class="control-group">
<label class="control-label" for="settings-enclosure-dhtPin">{{ _('DS18B20 Serial') }}</label>
<div class="controls">
@@ -614,7 +729,7 @@
</div>
<!-- /ko -->
<!-- ko ifnot: ($data.temp_sensor_type() == "18b20") || ($data.temp_sensor_type() == "si7021") || ($data.temp_sensor_type() == "bme280") || ($data.temp_sensor_type() == "am2320") || ($data.temp_sensor_type() == "tmp102") || ($data.temp_sensor_type() == "max31855") || ($data.temp_sensor_type() == "mcp9808") -->
<!-- ko ifnot: ($data.temp_sensor_type() == "rpi") || ($data.temp_sensor_type() == "18b20") || ($data.temp_sensor_type() == "si7021") || ($data.temp_sensor_type() == "bme280") || ($data.temp_sensor_type() == "am2320") || ($data.temp_sensor_type() == "tmp102") || ($data.temp_sensor_type() == "max31855") || ($data.temp_sensor_type() == "mcp9808") || ($data.temp_sensor_type() == "temp_raw_i2c") || ($data.temp_sensor_type() == "hum_raw_i2c") -->
<div class="control-group">
<label class="control-label" for="settings-enclosure-dhtPin">{{ _('Sensor Pin') }}</label>
<div class="controls">
@@ -679,7 +794,7 @@
<option value="input_pull_up">Input Pullup</option>
<option value="input_pull_down">Input Pulldown</option>
</select>
<span class="help-inline">Choose what type of pull resistors that you want on the output. If you signal is active low, that means it should
<span class="help-inline">Choose what type of pull resistors that you want on the output. If your signal is active low, that means it should
run the action when receive a low signal (ground), you should choose PULL UP resistors.</span>
</div>
</div>
@@ -690,8 +805,8 @@
<option value="rise">Rise</option>
<option value="fall">Fall</option>
</select>
<span class="help-inline">Do you want thrigger the event on the rise or falling edge? If you signal is active low, that means it should run
the action when receive a low signal (ground), you should choose FALLING EDGE.</span>
<span class="help-inline">Do you want to trigger the event on the rise or falling edge? If you signal is active low, that means it should run
the action when it receives a low signal (ground), you should choose FALLING EDGE.</span>
</div>
</div>
</div>
@@ -702,7 +817,7 @@
<select data-bind="options: $root.settings_possible_outputs, optionsText: 'label',
optionsValue: 'index_id', value: $data.controlled_io">
</select>
<span class="help-inline">When the event happen, you want control which OUTPUT?</span>
<span class="help-inline">When the event happens, do you want control of which OUTPUT?</span>
</div>
</div>
<!-- ko if: ($root.isRegularOutput($data.controlled_io())) -->
@@ -714,7 +829,8 @@
<option value="high">High</option>
<option value="toggle">Toggle</option>
</select>
<span class="help-inline">When the event happen, you want to turn the controlled IO HIGH or LOW?</span>
<span class="help-inline">When the event happens, do you want to turn the controlled IO HIGH or LOW?</span>
</div>
</div>
<!-- /ko -->
@@ -765,6 +881,24 @@
</label>
<span class="help-inline">Enable and disable temperature on navbar</span>
</div>
<div class="controls">
<label class="checkbox">
<input type="checkbox" data-bind="checked: show_graph_temp"> {{ _('Show temperature in graph') }}
</label>
<span class="help-inline">Enable to show temperature in temperature graph, when a printer is connected.
<!-- ko if: ($data.show_graph_temp()) -->
<p><i><strong>Note:</strong>This feature currently requires a custom graph plugin like <a href="https://github.com/jneilliii/OctoPrint-PlotlyTempGraph" target="_blank">PlotlyTempGraph</a></i></span></p>
<!-- /ko -->
</div>
<div class="controls">
<label class="checkbox">
<input type="checkbox" data-bind="checked: show_graph_humidity"> {{ _('Show humidity in graph') }}
</label>
<span class="help-inline">Enable to show humidity in temperature graph, when a printer is connected.
<!-- ko if: ($data.show_graph_humidity()) -->
<p><i><strong>Note:</strong>This feature currently requires a custom graph plugin like <a href="https://github.com/jneilliii/OctoPrint-PlotlyTempGraph" target="_blank">PlotlyTempGraph</a></i></span></p>
<!-- /ko -->
</div>
</div>
<!-- /ko -->
<div class="control-group">
@@ -853,7 +987,7 @@
<div class="controls">
<textarea rows="4" class="block" data-bind="value: settingsViewModel.settings.plugins.enclosure.filament_sensor_gcode"></textarea>
<span class="help-inline">GCODE that will be sent to the printer to pause and allow filament to be changed. You should add
<code>ENTER</code> on the end of every line sent to the printer</span>
<code>ENTER</code> to the end of every line sent to the printer</span>
</div>
</div>

2
setup.py
View File

@@ -33,7 +33,7 @@ plugin_url = "https://github.com/vitormhenrique/OctoPrint-Enclosure"
plugin_license = "AGPLv3"
# Any additional requirements besides OctoPrint should be listed here
plugin_requires = ["RPi.GPIO>=0.6.5","requests>=2.7"]
plugin_requires = ["RPi.GPIO>=0.6.5","requests>=2.7","smbus2>=0.3.0"]
additional_setup_parameters = {}