[EVA-2020-02-2.git] / examples / luftdaten.py

#!/usr/bin/env python

import requests
import ST7735
from bme280 import BME280
from pms5003 import PMS5003, ReadTimeoutError
from subprocess import PIPE, Popen, check_output
from PIL import Image, ImageDraw, ImageFont

try:
    from smbus2 import SMBus
except ImportError:
    from smbus import SMBus

print("""luftdaten.py - Reads temperature, pressure, humidity,
PM2.5, and PM10 from Enviro plus and sends data to Luftdaten,
the citizen science air quality project.

Note: you'll need to register with Luftdaten at:
https://meine.luftdaten.info/ and enter your Raspberry Pi
serial number that's displayed on the Enviro plus LCD along
with the other details before the data appears on the
Luftdaten map.

Press Ctrl+C to exit!

""")

bus = SMBus(1)

# Create BME280 instance
bme280 = BME280(i2c_dev=bus)

# Create LCD instance
disp = ST7735.ST7735(
    port=0,
    cs=1,
    dc=9,
    backlight=12,
    rotation=270,
    spi_speed_hz=10000000
)

# Initialize display
disp.begin()

# Create PMS5003 instance
pms5003 = PMS5003()


# Read values from BME280 and PMS5003 and return as dict
def read_values():
    values = {}
    cpu_temp = get_cpu_temperature()
    raw_temp = bme280.get_temperature()
    comp_temp = raw_temp - ((cpu_temp - raw_temp) / comp_factor)
    values["temperature"] = "{:.2f}".format(comp_temp)
    values["pressure"] = "{:.2f}".format(bme280.get_pressure() * 100)
    values["humidity"] = "{:.2f}".format(bme280.get_humidity())
    try:
        pm_values = pms5003.read()
        values["P2"] = str(pm_values.pm_ug_per_m3(2.5))
        values["P1"] = str(pm_values.pm_ug_per_m3(10))
    except ReadTimeoutError:
        pms5003.reset()
        pm_values = pms5003.read()
        values["P2"] = str(pm_values.pm_ug_per_m3(2.5))
        values["P1"] = str(pm_values.pm_ug_per_m3(10))
    return values


# Get CPU temperature to use for compensation
def get_cpu_temperature():
    process = Popen(['vcgencmd', 'measure_temp'], stdout=PIPE)
    output, _error = process.communicate()
    return float(output[output.index('=') + 1:output.rindex("'")])


# Get Raspberry Pi serial number to use as ID
def get_serial_number():
    with open('/proc/cpuinfo', 'r') as f:
        for line in f:
            if line[0:6] == 'Serial':
                return line.split(":")[1].strip()


# Check for Wi-Fi connection
def check_wifi():
    if check_output(['hostname', '-I']):
        return True
    else:
        return False


# Display Raspberry Pi serial and Wi-Fi status on LCD
def display_status():
    wifi_status = "connected" if check_wifi() else "disconnected"
    text_colour = (255, 255, 255)
    back_colour = (0, 170, 170) if check_wifi() else (85, 15, 15)
    id = get_serial_number()
    message = "{}\nWi-Fi: {}".format(id, wifi_status)
    img = Image.new('RGB', (WIDTH, HEIGHT), color=(0, 0, 0))
    draw = ImageDraw.Draw(img)
    size_x, size_y = draw.textsize(message, font)
    x = (WIDTH - size_x) / 2
    y = (HEIGHT / 2) - (size_y / 2)
    draw.rectangle((0, 0, 160, 80), back_colour)
    draw.text((x, y), message, font=font, fill=text_colour)
    disp.display(img)


def send_to_luftdaten(values, id):
    pm_values = dict(i for i in values.items() if i[0].startswith("P"))
    temp_values = dict(i for i in values.items() if not i[0].startswith("P"))

    resp_1 = requests.post("https://api.luftdaten.info/v1/push-sensor-data/",
             json={
                 "software_version": "enviro-plus 0.0.1",
                 "sensordatavalues": [{"value_type": key, "value": val} for
                                      key, val in pm_values.items()]
             },
             headers={
                 "X-PIN":    "1",
                 "X-Sensor": id,
                 "Content-Type": "application/json",
                 "cache-control": "no-cache"
             }
    )

    resp_2 = requests.post("https://api.luftdaten.info/v1/push-sensor-data/",
             json={
                 "software_version": "enviro-plus 0.0.1",
                 "sensordatavalues": [{"value_type": key, "value": val} for
                                      key, val in temp_values.items()]
             },
             headers={
                 "X-PIN":    "11",
                 "X-Sensor": id,
                 "Content-Type": "application/json",
                 "cache-control": "no-cache"
             }
    )

    if resp_1.ok and resp_2.ok:
        return True
    else:
        return False


# Compensation factor for temperature
comp_factor = 1.2

# Raspberry Pi ID to send to Luftdaten
id = "raspi-" + get_serial_number()

# Width and height to calculate text position
WIDTH = disp.width
HEIGHT = disp.height

# Text settings
font_size = 16
font = ImageFont.truetype("fonts/Asap/Asap-Bold.ttf", font_size)

# Display Raspberry Pi serial and Wi-Fi status
print("Raspberry Pi serial: {}".format(get_serial_number()))
print("Wi-Fi: {}\n".format("connected" if check_wifi() else "disconnected"))

# Main loop to read data, display, and send to Luftdaten
while True:
    try:
        values = read_values()
        print(values)
        resp = send_to_luftdaten(values, id)
        print("Response: {}\n".format("ok" if resp else "failed"))
        display_status()
    except Exception as e:
        print(e)
Commit	Line	Data
f7a6afa2 SM	1	#!/usr/bin/env python
f7a6afa2 SM	2
f7a6afa2 SM	3	import requests
	4	import ST7735
	5	from bme280 import BME280
85439fb1	6	from pms5003 import PMS5003, ReadTimeoutError
f7a6afa2 SM	7	from subprocess import PIPE, Popen, check_output
	8	from PIL import Image, ImageDraw, ImageFont
	9
	10	try:
	11	from smbus2 import SMBus
	12	except ImportError:
	13	from smbus import SMBus
	14
ec075941 SM	15	print("""luftdaten.py - Reads temperature, pressure, humidity,
	16	PM2.5, and PM10 from Enviro plus and sends data to Luftdaten,
	17	the citizen science air quality project.
f7a6afa2	18
ec075941 SM	19	Note: you'll need to register with Luftdaten at:
	20	https://meine.luftdaten.info/ and enter your Raspberry Pi
	21	serial number that's displayed on the Enviro plus LCD along
	22	with the other details before the data appears on the
	23	Luftdaten map.
f7a6afa2 SM	24
	25	Press Ctrl+C to exit!
	26
	27	""")
	28
	29	bus = SMBus(1)
	30
	31	# Create BME280 instance
	32	bme280 = BME280(i2c_dev=bus)
	33
f7a6afa2 SM	34	# Create LCD instance
	35	disp = ST7735.ST7735(
	36	port=0,
	37	cs=1,
	38	dc=9,
	39	backlight=12,
	40	rotation=270,
	41	spi_speed_hz=10000000
	42	)
	43
	44	# Initialize display
	45	disp.begin()
	46
ec075941 SM	47	# Create PMS5003 instance
	48	pms5003 = PMS5003()
	49
	50
f7a6afa2 SM	51	# Read values from BME280 and PMS5003 and return as dict
	52	def read_values():
	53	values = {}
	54	cpu_temp = get_cpu_temperature()
	55	raw_temp = bme280.get_temperature()
	56	comp_temp = raw_temp - ((cpu_temp - raw_temp) / comp_factor)
	57	values["temperature"] = "{:.2f}".format(comp_temp)
	58	values["pressure"] = "{:.2f}".format(bme280.get_pressure() * 100)
	59	values["humidity"] = "{:.2f}".format(bme280.get_humidity())
85439fb1 SM	60	try:
	61	pm_values = pms5003.read()
	62	values["P2"] = str(pm_values.pm_ug_per_m3(2.5))
	63	values["P1"] = str(pm_values.pm_ug_per_m3(10))
	64	except ReadTimeoutError:
391bec80	65	pms5003.reset()
85439fb1 SM	66	pm_values = pms5003.read()
	67	values["P2"] = str(pm_values.pm_ug_per_m3(2.5))
	68	values["P1"] = str(pm_values.pm_ug_per_m3(10))
f7a6afa2 SM	69	return values
f7a6afa2 SM	70
ec075941	71
f7a6afa2 SM	72	# Get CPU temperature to use for compensation
	73	def get_cpu_temperature():
	74	process = Popen(['vcgencmd', 'measure_temp'], stdout=PIPE)
	75	output, _error = process.communicate()
	76	return float(output[output.index('=') + 1:output.rindex("'")])
	77
ec075941	78
f7a6afa2 SM	79	# Get Raspberry Pi serial number to use as ID
f7a6afa2 SM	80	def get_serial_number():
ec075941	81	with open('/proc/cpuinfo', 'r') as f:
f7a6afa2	82	for line in f:
ec075941 SM	83	if line[0:6] == 'Serial':
	84	return line.split(":")[1].strip()
	85
f7a6afa2 SM	86
	87	# Check for Wi-Fi connection
	88	def check_wifi():
	89	if check_output(['hostname', '-I']):
	90	return True
	91	else:
	92	return False
	93
ec075941	94
f7a6afa2 SM	95	# Display Raspberry Pi serial and Wi-Fi status on LCD
	96	def display_status():
	97	wifi_status = "connected" if check_wifi() else "disconnected"
	98	text_colour = (255, 255, 255)
	99	back_colour = (0, 170, 170) if check_wifi() else (85, 15, 15)
	100	id = get_serial_number()
	101	message = "{}\nWi-Fi: {}".format(id, wifi_status)
	102	img = Image.new('RGB', (WIDTH, HEIGHT), color=(0, 0, 0))
	103	draw = ImageDraw.Draw(img)
	104	size_x, size_y = draw.textsize(message, font)
	105	x = (WIDTH - size_x) / 2
	106	y = (HEIGHT / 2) - (size_y / 2)
	107	draw.rectangle((0, 0, 160, 80), back_colour)
	108	draw.text((x, y), message, font=font, fill=text_colour)
	109	disp.display(img)
	110
ec075941	111
f7a6afa2 SM	112	def send_to_luftdaten(values, id):
	113	pm_values = dict(i for i in values.items() if i[0].startswith("P"))
	114	temp_values = dict(i for i in values.items() if not i[0].startswith("P"))
	115
	116	resp_1 = requests.post("https://api.luftdaten.info/v1/push-sensor-data/",
ec075941 SM	117	json={
	118	"software_version": "enviro-plus 0.0.1",
	119	"sensordatavalues": [{"value_type": key, "value": val} for
	120	key, val in pm_values.items()]
	121	},
	122	headers={
	123	"X-PIN": "1",
	124	"X-Sensor": id,
	125	"Content-Type": "application/json",
	126	"cache-control": "no-cache"
	127	}
f7a6afa2 SM	128	)
	129
	130	resp_2 = requests.post("https://api.luftdaten.info/v1/push-sensor-data/",
ec075941 SM	131	json={
	132	"software_version": "enviro-plus 0.0.1",
	133	"sensordatavalues": [{"value_type": key, "value": val} for
	134	key, val in temp_values.items()]
	135	},
	136	headers={
	137	"X-PIN": "11",
	138	"X-Sensor": id,
	139	"Content-Type": "application/json",
	140	"cache-control": "no-cache"
	141	}
f7a6afa2 SM	142	)
	143
	144	if resp_1.ok and resp_2.ok:
	145	return True
	146	else:
	147	return False
	148
ec075941	149
f7a6afa2 SM	150	# Compensation factor for temperature
	151	comp_factor = 1.2
	152
	153	# Raspberry Pi ID to send to Luftdaten
	154	id = "raspi-" + get_serial_number()
	155
	156	# Width and height to calculate text position
	157	WIDTH = disp.width
	158	HEIGHT = disp.height
	159
	160	# Text settings
	161	font_size = 16
	162	font = ImageFont.truetype("fonts/Asap/Asap-Bold.ttf", font_size)
	163
	164	# Display Raspberry Pi serial and Wi-Fi status
	165	print("Raspberry Pi serial: {}".format(get_serial_number()))
	166	print("Wi-Fi: {}\n".format("connected" if check_wifi() else "disconnected"))
	167
	168	# Main loop to read data, display, and send to Luftdaten
	169	while True:
	170	try:
	171	values = read_values()
	172	print(values)
	173	resp = send_to_luftdaten(values, id)
	174	print("Response: {}\n".format("ok" if resp else "failed"))
	175	display_status()
	176	except Exception as e:
	177	print(e)