from machine import Pin, ADC, Timer
import network
import time
import ujson
from uhashlib import sha256
import binascii
import math
import urequests


######################################################## CONFIG ########################################################
# Wifi settings:
# WIFI_ESSID = 'Your wifi ESSID (name)'
# WIFI_PSK = 'Your wifi key'
#
# Notification settings:
# NOTIFICATION_URL = 'https://automation.jaseg.de/notify/klingel'
# NOTIFICATION_SECRET = b'Your notification proxy secret for this endpoint'
#
# NOTIFICATION_COOLDOWN = 60 # how long to wait after sending a notification before sending the next, in seconds
#
# Detection settings
# MEAN_LEN = 8 # Window length for DC offset determination in seconds (1024ms to be exact)
# RMS_THRESHOLD = 1000  # Threshold for rms detection threshold over 1s window in ADC counts
######################################################### END ##########################################################


def wifi_connect():
    iface = network.WLAN(network.STA_IF)
    if not iface.isconnected():
        print('Connecting to wifi... ')
        iface.active(True)
        iface.connect(WIFI_ESSID, WIFI_PSK)
        for i in range(20):
            if iface.isconnected():
                print('Wifi connected. IP config: ', iface.ifconfig())
                break
            time.sleep(0.5)
        else:
            print("Couldn't connect to wifi.")


buf = [0] * 1024
capture = None
mean = 0
rms = 0
sample_tim = Timer(-1)

def start_sampling():
    global sample_tim
    buf_pos = 0
    buf_sum = 0
    mean_acc = []

    adc = ADC(Pin(34))
    adc.atten(ADC.ATTN_11DB)

    def sample_cb(tim):
        global buf, mean, rms, capture
        nonlocal adc, buf_pos, buf_sum, mean_acc

        val = adc.read()
        buf[buf_pos] = val
        buf_sum += val

        buf_pos += 1
        if buf_pos == len(buf):
            buf_pos = 0
            mean_acc = [buf_sum/len(buf)] + mean_acc[:MEAN_LEN-1]
            mean = sum(mean_acc)/len(mean_acc)
            buf_sum = 0

            rms = math.sqrt( sum( (x-mean)**2 for x in buf )/len(buf) )
            capture = list(buf) # Make a copy

    sample_tim.init(period=1, mode=Timer.PERIODIC, callback=sample_cb) # period in ms

def uhmac(key, data):
    blocksize = 64
    key += bytes(64 - len(key))
    tx = lambda s, x: bytes( b ^ x for b in s )
    outer = sha256(tx(key, 0x5C))
    inner = sha256(tx(key, 0x36))
    inner.update(data)
    outer.update(inner.digest())
    return outer.digest()

def usign(secret, payload=None, seq=None):
    payload = {'time': int(time.time()), 'd': payload}
    if seq is not None:
        payload['seq'] = seq

    payload = ujson.dumps(payload).encode()
    auth = binascii.hexlify(uhmac(secret, payload))

    return ujson.dumps({'payload': payload, 'auth': auth})

def notify(**kwargs):
    data = usign(NOTIFICATION_SECRET, kwargs)
    print(time.time(), 'Notifying', NOTIFICATION_URL)
    urequests.post(NOTIFICATION_URL, data=data, headers={'Content-Type': 'application/json'})

def klingel_notify(rms, capture):
    notify(rms=rms, capture=capture)

def loop():
    global rms, capture
    while True:
        if rms > RMS_THRESHOLD:
            wifi_connect()
            old_capture = capture
            rms = 0
            while rms == 0:
                time.sleep(0.1)
            rms = 0
            klingel_notify(rms, [old_capture, capture])
            time.sleep(NOTIFICATION_COOLDOWN)

        time.sleep(0.1)

wifi_connect()
start_sampling()
loop()