Juice/models.py

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#!/usr/bin/env python3
"""
Data models for different device types managed by the Juice IOT hub.
"""
import re
import json
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import tools
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import requests
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class Network(list):
"""
Represents a network of IOT devices.
"""
def find(self, device_id):
"""
Searches through the network and returns the matching device,
or None.
"""
for device in self:
if device.id == device_id:
break
else:
return None
return device
class Device:
"""
Represents a generic device on the Network.
"""
def __init__(self):
self.id = ""
self.type = ""
self.description = ""
self.location = ""
self.ip_address = ""
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self.mqtt_root = ""
self.locked = False
self.sub_devices = []
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def find(self, sub_device_id):
"""
Searches through the devices sub_devices and returns the matching
sub_device, or None.
"""
for sub_device in self.sub_devices:
if sub_device.id == sub_device_id:
break
else:
return None
return sub_device
def from_dict(self, data):
"""
Initializes self with data from dict.
"""
for key, value in data.items():
if key == 'sub_devices':
continue
else:
setattr(self, key, value)
for sub_device_dict in data.get('sub_devices'):
if sub_device_dict.get('type') == 'RelayOutlet':
sub_device = RelayOutlet().from_dict(sub_device_dict)
self.sub_devices.append(sub_device)
elif sub_device_dict.get('type') == 'NeoPixel':
sub_device = NeoPixel().from_dict(sub_device_dict)
self.sub_devices.append(sub_device)
else:
typ = sub_device_dict.get('type')
raise ValueError(f"Unknown sub_device type {typ}")
return self
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async def mqtt_callback(self, msg):
"""
Called when the MQTT client receives a message directed to this
device. Should be overridden by the device implementation.
"""
pass
class SubDevice:
"""
Represents a generic subdevice in a Device.
"""
def from_dict(self, data):
"""
Initializes self with data from dict.
"""
for key, value in data.items():
setattr(self, key, value)
return self
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class RelayDevice(Device):
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"""
Represents a relay receptacle device controlled by an ESP-01. The
ESP-01 acts a simple switch to turn each receptable on or off via
a relay. Each device only has two outputs, `OUT0` and `OUT2`.
"""
def __init__(self):
super().__init__()
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self.type = "RelayDevice"
def update(self):
"""
Queries the physical device and updates the internal model as
appropriate.
"""
if not self.ip_address:
return
for sub_dev in self.sub_devices:
res = requests.get(self.ip_address)
gpio0 = re.search(r"GPIO0: (\bLow|\bHigh)", res.text).groups()[0]
sub_dev.state = gpio0 == 'High'
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def toggle(self, sub_device_id):
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"""
Toggles the state of a sub device.
"""
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sub_device = self.find(sub_device_id)
if not sub_device:
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return None
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params = {sub_device.gpio: 'toggle'}
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res = requests.get('http://' + self.ip_address + '/gpio',params=params)
res.raise_for_status()
state = re.search(
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rf"GPIO{sub_device.gpio}: (\bLow|\bHigh)",
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res.text
).groups()[0] == 'High'
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sub_device.state = state
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return state
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class RelayOutlet(SubDevice):
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"""
Represents a single outlet on a RelayDevice.
"""
def __init__(self):
self.id = ""
self.type = "RelayOutlet"
self.description = ""
self.gpio = ""
self.state = False
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class LightStrip(Device):
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"""
Represents an RGB LED light strip controller.
"""
def __init__(self):
super().__init__()
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self.type = "LightStrip"
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self.state = "solid"
self.animation = "static",
rainbow_params = [0.3, 0.3, 0.3, 0, 2, 4, 127, 128],
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america_params = [8, 128],
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animation_rotate_count = 1,
animation_delay = 200,
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async def mqtt_callback(self, app, msg):
topic = msg.topic.split('/')
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payload = msg.payload.decode('utf8')
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data = {}
data['ok'] = True
data['device_id'] = self.id
data['change_mode'] = topic[1]
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if topic[1] == 'state':
data['type'] = topic[2]
if topic[2] == 'solid':
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payload = payload.split(',')
payload = [int(num) for num in payload]
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data['amount'] = topic[3]
if topic[3] == 'single':
data['sub_device_id'] = 'led' + topic[4]
sub_device = self.find('led' + topic[4])
sub_device.color = payload
elif topic[3] == 'all':
for sub_device in self.sub_devices:
sub_device.color = payload
data['color'] = tools.to_html_color(payload)
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elif topic[2] == 'rainbow':
payload = payload.split(',')
self.rainbow_params = [float(p) for p in payload[:3]]
self.rainbow_params += [int(p) for p in payload[3:]]
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data['rainbow_params'] = self.rainbow_params
elif topic[2] == 'america':
payload = payload.split(',')
self.america_params = [int(n) for n in payload]
data['america_params'] = self.america_params
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elif topic[1] == 'strip':
data['amount'] = topic[2]
if topic[2] == 'full':
payload = json.loads(payload)
data['colors'] = []
for i, color in enumerate(payload):
self.sub_devices[i].color = color
data['colors'].append(tools.to_html_color(color))
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save_network(network)
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res = {'event': 'neopixel', 'data': data}
await app.send_json_all(res)
class NeoPixel(SubDevice):
"""
Represents a single NeoPixel in a LightStrip.
"""
def __init__(self):
self.id = ""
self.type = "NeoPixel"
self.color = [0,0,0] # JSON doesn't have tuples
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class DeviceEncoder(json.JSONEncoder):
"""
A custom json encoder for dumping devices to file.
"""
def default(self, o):
return vars(o)
def init_network(filepath="devices.json"):
"""
Initializes the network of IOT devices.
"""
with open(filepath, 'r') as file:
data = file.read()
data = json.loads(data)
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network = Network()
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for device_dict in data:
if device_dict.get('type') == 'RelayDevice':
device = RelayDevice().from_dict(device_dict)
network.append(device)
elif device_dict.get('type') == 'LightStrip':
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device = LightStrip().from_dict(device_dict)
network.append(device)
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else:
raise ValueError(f"Unknown device type {device_dict.get('type')}")
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return network
def save_network(network, filepath="devices.json"):
"""
Dumps the network to file.
"""
with open(filepath, 'w') as file:
file.write(json.dumps(network, cls=DeviceEncoder, indent='\t'))
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network = init_network()