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irk_tracker.py
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irk_tracker.py
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import hassapi as hass
import base64
import adbase as ad
from collections import defaultdict
import pandas as pd
from Crypto.Cipher import AES
import dateutil.parser as du
from datetime import timedelta, datetime, time
import os
from glob import glob
from collections import defaultdict
import numpy as np
tracker_log_loc = '/config/appdaemon/tracker_logs/'
tracker_log_rows_per_flush = 100
class IrkTracker(hass.Hass):
def initialize(self):
self.known_addr_cache = {}
self.room_aliases = self.args.get('room_aliases', {})
self.room_presence = self.args.get('room_presence', {})
for room, alias in self.room_aliases.items():
if 'secondary_clarifiers' in alias:
clarifiers = {}
for c in alias['secondary_clarifiers']:
if isinstance(c, str):
clarifiers[c] = c
else: # support resolving to an alternative room (e.g. when between floors)
k,v = list(c.items())[0]
clarifiers[k] = v
alias['secondary_clarifiers'] = clarifiers
self.log(f"processed room aliases: {self.room_aliases}")
self.valid_rooms = set()
self.device_in_room = defaultdict(lambda: 'unknown')
self.active_device_by_person = defaultdict(lambda: 'unknown')
self.expiry_timers = {}
self.tracking_window = timedelta(minutes=int(self.args.get('tracking_window_minutes', 3)))
self.min_superplurality = self.args.get('tracking_min_superplurality',1.0)
self.rssi_adjustments = self.args.get('rssi_adjustments',{})
self.ping_halflife_seconds = self.args.get('ping_halflife_seconds', 60)
self.log(f'rssi_adjustments = {self.rssi_adjustments}')
self.away_tracker_pending_arrivals = {}
for room in self.room_aliases.values():
if isinstance(room, str):
self.valid_rooms.add(room)
elif 'default' in room:
self.valid_rooms.add(room['default'])
elif 'secondary_clarifiers' in room:
for r in room['secondary_clarifiers'].values():
self.valid_rooms.add(r)
self.identities = {x['device_name']: x for x in self.args['identities']}
self.ciphers = {}
self.people = set(x['person'] for x in self.args['identities'])
irk_prefilters = [] # will be a list of base64 encoded IRKs
for identity, data in self.identities.items():
byte_form = bytearray.fromhex(data['irk'])
irk_prefilters.append(base64.b64encode(byte_form).decode("ascii"))
self.ciphers[identity] = AES.new(byte_form, AES.MODE_ECB)
device_clean_name = identity.replace(" ", "_")
device_ent = self.get_entity(f'device_tracker.{device_clean_name}_irk')
if device_ent.exists():
self.device_in_room[identity] = device_ent.get_state(attribute='room')
person = data['person']
force_primary_button = f"button.irk_tracker_make_primary_{person}_{device_clean_name}"
self.get_entity(force_primary_button).set_state(state='unknown', attributes={'friendly_name': f"Set {identity} as the primary device for {person}", 'person': person, 'device': identity})
def filter_make_primary_entity(x):
entity = x.get('entity_id')
if isinstance(entity, str):
return entity.startswith('button.irk_tracker_make_primary_')
return False
self.listen_event(self.make_primary_cb, "call_service", domain="button", service="press", service_data=filter_make_primary_entity)
if 'data_loc' in self.args:
self.data_loc = f"/config/appdaemon/{self.args['data_loc']}"
else:
self.data_loc = tracker_log_loc
if 'rows_per_flush' in self.args:
self.rows_per_flush = int(self.args['rows_per_flush'])
else:
self.rows_per_flush = tracker_log_rows_per_flush
all_examples = glob(f"{self.data_loc}examples*.csv")
if len(all_examples) > 0:
self.log(f"found {len(all_examples)} preexisting examples, fitting model...")
#self.fit_model(None, {}, {})
self.log("model fit")
else:
self.knn = None
self.fused_trackers = {}
for cfg in self.args['away_trackers']:
#self.log(f"configuring fused trackers {cfg}")
person = cfg['person']
fused_tracker = cfg['home_focused_tracker']
self.fused_trackers[person] = fused_tracker
for person in self.people:
person_ent = self.get_entity(f'device_tracker.{person}_irk')
if person in self.fused_trackers:
init_state = self.get_state(self.fused_trackers[person])
else:
init_state = 'unknown'
person_ent.set_state(state=init_state, attributes={'from_device': 'init'})
fused_override_select = f"select.irk_tracker_fused_override_{person}"
self.get_entity(fused_override_select).set_state(state='unknown', attributes={'friendly_name': f"Override {person} home/away", 'person': person, 'options': ['home', 'away', 'just_arrived', 'just_left']})
for cfg in self.args['away_trackers']:
#self.log(f"initializing fused tracker {cfg}")
person = cfg['person']
tracker = cfg['tracker']
init_fused_state = 'home' if self.get_state(tracker) == 'home' else 'away'
self.set_person_fused_tracker_state(person, init_fused_state, 'init')
self.listen_state(self.away_tracker_cb, tracker, person=person)
def filter_override_fused(x):
entity = x.get('entity_id')
if isinstance(entity, str):
return entity.startswith('select.irk_tracker_fused_override_')
return False
self.listen_event(self.override_fused_cb, "call_service", domain="select", service="select_option", service_data=filter_override_fused)
for pullout_sensor in self.args.get('pullout_sensors', []):
entity = pullout_sensor['entity']
from_state = pullout_sensor['from']
to_state = pullout_sensor['to']
nearest_beacons = pullout_sensor['nearest_beacons']
self.listen_state(self.pullout_sensor_cb, entity, cfg=pullout_sensor)#, old=from_state, new=to_state, nearest_beacons=nearest_beacons)
self.listen_event(self.ble_tracker_cb, "esphome.ble_tracking_beacon", addr=lambda addr: self.known_addr_cache.get(addr,None) != 'none')
self.recording_df = None
self.listen_event(self.start_recording, "irk_tracker.start_recording")
self.listen_event(self.stop_recording, "irk_tracker.stop_recording")
self.recent_observations = defaultdict(lambda: [])
self.get_entity('sensor.irk_prefilter').set_state(state=':'.join(irk_prefilters) + ':') # TODO the filtering code on the esp requires a trailing colon
self.init_time = datetime.now()
def flush_recording(self):
df = pd.DataFrame(self.recording_df)
df['tag'] = self.recording_tag
save_path = self.data_loc + f"examples-{self.recording_tag}-{self.recording_index}.csv"
self.log(f'recording data to {save_path}')
df.to_csv(save_path, index=False, header=True)
self.recording_index += 1
self.recording_df = {'time':[], 'device':[], 'source':[], 'rssi':[]}
def start_recording(self, event_name, data, kwargs):
input_irk_tag_ent = self.get_entity(self.args['training_input_text'])
tag = input_irk_tag_ent.get_state('state')
os.makedirs(self.data_loc, exist_ok = True)
# delete all files in dir startig with self.data_loc+"examples-"+tag for clean train
for f in glob(f"{self.data_loc}examples-{tag}*.csv"):
os.unlink(f)
self.log(f"started recording with tag {tag}")
self.recording_df = {'time':[], 'device':[], 'source':[], 'rssi':[]}
self.recording_index = 0
self.recording_tag = tag
def stop_recording(self, event_name, data, kwargs):
if self.recording_df is not None:
self.flush_recording()
self.log(f"stopped recording for {self.recording_tag}")
self.recording_df = None
@ad.app_lock
def pullout_sensor_cb(self, entity, attr, old, new, kwargs):
#self.log(f"pullout: {entity} went from {old} to {new}")
f = kwargs['cfg']['from']
t = kwargs['cfg']['to']
if old != f or new != t:
self.log(f"didn't match pullout: {old} != {f} or {new} != {t}")
return
within_top = kwargs['cfg'].get('within_top', 1)
nearest_beacons = kwargs['cfg']['nearest_beacons']
for person in self.people:
active_device = self.active_device_by_person[person]
device_ent = self.get_entity(f'device_tracker.{active_device.replace(" ", "_")}_irk')
weighted_votes = device_ent.get_state(attribute='weighted_votes')
if weighted_votes:
self.log(f"pullout for {person} (looking at top {within_top}): weighted votes are {weighted_votes}")
# lowest rssi * superplurality
rssi_limit = weighted_votes[0][0] * self.min_superplurality
for i in range(within_top):
if weighted_votes[i][2] in nearest_beacons and weighted_votes[i][0] <= rssi_limit:
self.set_person_fused_tracker_state(person, 'just_left', device_ent)
# Now, this could be an incorrect operation. So, if time passes and GPS doesn't pick up, treat as at home again
self.schedule_arrival_after_delay(person)
else:
self.log(f"pullout for {person} has no weighted votes")
def schedule_arrival_after_delay(self, person):
cb_token = self.run_in(self.arrived_home, person=person, delay=self.args['away_tracker_arrival_delay_secs'])
self.away_tracker_pending_arrivals[person] = cb_token
def set_person_fused_tracker_state(self, person, state, from_device='bug'):
fused_tracker = self.get_entity(self.fused_trackers[person])
fused_tracker.set_state(state=state)
if state in ['away', 'just_left']:
person_ent = self.get_entity(f'device_tracker.{person}_irk')
person_ent.set_state(state='away', attributes={'from_device': from_device})
fused_override_select = f"select.irk_tracker_fused_override_{person}"
self.get_entity(fused_override_select).set_state(state=state)
@ad.app_lock
def away_tracker_cb(self, entity, attr, old, new, kwargs):
person = kwargs['person']
#self.log(f"running away tracker cb for person = {person} state = {new} entity = {entity}")
if new != 'home':
if person in self.away_tracker_pending_arrivals:
# cancel a pending arrival if we got a new not here event
self.cancel_timer(self.away_tracker_pending_arrivals[person])
del self.away_tracker_pending_arrivals[person]
self.log(f"canceled pending arrival timer for {person} because they are {new}")
self.set_person_fused_tracker_state(person, 'away', entity)
else:
cur_state = self.get_state(self.fused_trackers[person])
self.log(f"{person} arrived home, current fused state = {cur_state}")
if cur_state == 'home':
self.log(f"doing nothing because we are already aware they're home")
else:
self.log(f"acknowledging in {self.args['away_tracker_arrival_delay_secs']}")
self.schedule_arrival_after_delay(person)
@ad.app_lock
def arrived_home(self, kwargs):
person = kwargs['person']
self.log(f"registering that {person} arrived home (after delay)")
self.set_person_fused_tracker_state(person, 'home', 'arrived_after_delay')
@ad.app_lock
def override_fused_cb(self, event_name, data, kwargs):
entity = data['service_data']['entity_id']
option = data['service_data']['option']
attrs = self.get_state(entity, attribute='all')
person = attrs['attributes']['person']
self.log(f'overriding fused for {person} to {option}')
if person in self.away_tracker_pending_arrivals:
self.cancel_timer(self.away_tracker_pending_arrivals[person])
del self.away_tracker_pending_arrivals[person]
self.log(f"canceled pending arrival timer for {person} because of override")
self.set_person_fused_tracker_state(person, option, 'fused_override')
@ad.app_lock
def make_primary_cb(self, event_name, data, kwargs):
entity = data['service_data']['entity_id']
button_attrs = self.get_state(entity, attribute='all')
person = button_attrs['attributes']['person']
device = button_attrs['attributes']['device']
self.active_device_by_person[person] = device
self.log(f"Manually overriding primary device for {person} to be {device}")
self.tracking_resolve(device, force_update=True)
@ad.app_lock
def ble_tracker_cb(self, event_name, data, kwargs):
#self.log(f'event: {event_name} : {data}')
#time = du.parse(data['metadata']['time_fired'])
# TODO this should actually do the parsing above with the timezone awareness
matched_device = 'none'
if data['addr'] in self.known_addr_cache:
matched_device = self.known_addr_cache[data['addr']]
#if matched_device == 'none':
# self.log(f"fast skipping {data['addr']}")
else:
addr = bytes.fromhex(data['addr'].replace(":",""))
pt = bytearray(b'\0' * 16)
pt[15] = addr[2]
pt[14] = addr[1]
pt[13] = addr[0]
for name, cipher in self.ciphers.items():
msg = cipher.encrypt(bytes(pt))
if msg[15] == addr[5] and msg[14] == addr[4] and msg[13] == addr[3]:
matched_device = name
break
# This also caches that a device is unknown
self.known_addr_cache[data['addr']] = matched_device
if matched_device == 'none':
return
#self.log(f"found a match {matched_device}")
time = datetime.now()
source = data['source']
rssi = int(data['rssi'])
if self.recording_df is not None:
self.recording_df['time'].append(time)
self.recording_df['device'].append(matched_device)
self.recording_df['source'].append(source)
self.recording_df['rssi'].append(rssi)
if len(self.recording_df['time']) > self.rows_per_flush:
self.flush_recording()
# handle publishing update for appropriate entity
obs = self.recent_observations[(source,matched_device)]
#if source in self.rssi_adjustments:
# self.log(f"Adjusting rssi for {source} from {rssi} to {rssi + self.rssi_adjustments.get(source,0)}")
# If this is the first observation for this device across all sources, this means that the owner just arrived home, so we should update the fused tracker
# Unless this is within 30 seconds of the initialization of the component, in which case ignore it
if len(obs) == 0 and (time - self.init_time).total_seconds() > 30:
# now, we need to check all the sources
other_source_had_obs = False
for other_obs in (o for (s,d),o in self.recent_observations.items() if d == matched_device and s != source):
if len(other_obs) != 0:
other_source_had_obs = True
break
if not other_source_had_obs:
device_person = self.identities[matched_device]['person']
self.set_person_fused_tracker_state(device_person, 'just_arrived', f'saw {matched_device}')
self.log(f"{device_person} just arrived due to first observation from {matched_device}")
self.schedule_arrival_after_delay(device_person)
obs.append((time, rssi + self.rssi_adjustments.get(source,0)))
self.tracking_resolve(matched_device)
if matched_device in self.expiry_timers:
self.cancel_timer(self.expiry_timers[matched_device])
self.expiry_timers[matched_device] = self.run_in(self.device_expiry, delay=self.tracking_window.total_seconds(), expiring_device = matched_device)
#self.log(f"found a match for {matched_device} with rssi {data['rssi']} from {source} at {time} (mac: {data['addr']})")
@ad.app_lock
def device_expiry(self, kwargs):
device = kwargs['expiring_device']
del self.expiry_timers[device]
self.tracking_resolve(device)
def tracking_resolve(self, device, force_update=False):
room_votes = defaultdict(lambda: [])
total_votes = 0
for (source, d), obs in self.recent_observations.items():
if device != d:
# not resolving this device atm
continue
self.prune_old_obs(obs)
if source not in self.room_aliases:
# tracker doesn't belong to a room
continue
room = source#self.room_aliases[source]
room_votes[room].extend(obs)
total_votes += len(obs)
weighted_votes = []
if total_votes < 3:
# not enough info
in_room = 'unknown'
else:
now = datetime.now()
for room, obs in room_votes.items():
if len(obs) == 0:
continue # nothing to do
count = numerator = denominator = 0
for time, rssi in obs:
#weight = 1.0
weight = 0.5**((now-time).total_seconds()/self.ping_halflife_seconds)
numerator += -rssi * weight
denominator += weight
count += 1
orig_source = room
# at this point, resolve to a room
weighted_votes.append((numerator / denominator, count, orig_source))
weighted_votes.sort(key=lambda x: x[0], reverse=False)
in_room = self.resolve_room2(weighted_votes, device)
#self.log(f"total_votes={total_votes} in_room={in_room}")
device_person = self.identities[device]['person']
# they're always here if they don't have a fused tracker, or they're in a "home" state
person_is_home = device_person not in self.fused_trackers or self.get_state(self.fused_trackers[device_person]) in ['home']#, 'just_arrived']
if device in self.device_in_room and in_room != 'unknown':
old_room = self.device_in_room[device]
# here we filter to ensure the in_room is occupied, or else we can ignore this update
in_room_is_eligible = True
if in_room in self.room_presence:
in_room_is_eligible = False
for sensor in self.room_presence[in_room]:
if self.get_state(sensor) == 'on':
in_room_is_eligible = True
break
#self.log(f"device={device}, in_room={in_room}, eligble={in_room_is_eligible}")
# This statement is saying that:
# If the room is occupied, and it's different than the last place we had them, we can update
# If the room is occupied, and we think they are away, if they're home now, we'll resume updating their room tracker
# Or if it's a forced update, just go for it
if (in_room_is_eligible and old_room != in_room or self.get_state(f'device_tracker.{device_person}_irk') == 'away') or force_update:
# publish that the person is in in_room, if we think they're actually here
if person_is_home:
person_ent = self.get_entity(f'device_tracker.{device_person}_irk')
person_ent.set_state(state=in_room, attributes={'from_device': device})
# mark that this is the "active" device for that person
self.active_device_by_person[device_person] = device
# publish the device-level stat
self.device_in_room[device] = in_room
device_ent = self.get_entity(f'device_tracker.{device.replace(" ", "_")}_irk')
device_ent.set_state(state=in_room, attributes={'weighted_votes': weighted_votes})
# finally, only if now every device is unknown
active_device = self.active_device_by_person[device_person]
active_device_unknown = self.device_in_room[active_device] == 'unknown'
if active_device_unknown and person_is_home:
# publish that the person isn't detected
person_ent = self.get_entity(f'device_tracker.{device_person}_irk')
person_ent.set_state(state='unknown', attributes={'from_device': f'{active_device} unknown'})
#self.log(f"checking if every device is unknown for {device_person}: {self.device_in_room}")
#every_device_unknown = True
#for identity, data in self.identities.items():
# if data['person'] != device_person:
# continue
# x = self.device_in_room[data['device_name']]
# if x is not None and x != 'unknown':
# self.log(f"all devices not unknown due to {data}")
# every_device_unknown = False
# break
#if every_device_unknown:
# # publish that the person isn't detected
# person_ent = self.get_entity(f'device_tracker.{device_person}_irk')
# person_ent.set_state(state='unknown', attributes={'from_device': 'all'})
def resolve_room(self, weighted_votes, device):
rooms = []
def resolve_inner(source, i, recur=True):
alias = self.room_aliases[source]
if isinstance(alias, str): # direct mapping
return alias
elif 'secondary_clarifiers' in alias:
if len(weighted_votes) == 1: # we haven't observed anything else, so default if we have one
return alias.get('default')
if i == 0:
next_index = 1
else:
next_index = i-1 # preceding
#self.log(f"for {device} resolving inner for {source} at 0, next is {next_source} at {next_index}")
_,_,next_source = weighted_votes[next_index]
clarifiers = alias['secondary_clarifiers']
if next_source in clarifiers: # handle case resolving by device
return clarifiers[next_source]
try:
if recur:
next_room = resolve_inner(next_source, next_index, recur=i != 0)
else:
next_room = next_source
except:
self.log(f"for {device} resolving inner for {source} at {i}, next is {next_source} will have index {next_index} and weighted_votes len={len(weighted_votes)}, weighted_votes={weighted_votes}")
raise
if next_room in clarifiers: # handle case resolving by room
return clarifiers[next_room]
if 'default' in alias:
return alias['default']
# no data for 2ndary classifier b/c it's the last one
return None
else:
raise ValueError(f'invalid alias config: {alias}')
for i, (rssi, count, source) in enumerate(weighted_votes):
room = resolve_inner(source, i)
rooms.append(room)
if len(rooms) == 1:
resolved_room = rooms[0]
elif len(rooms) >= 2:
# TODO this should consider the secondary clarifiers as well
if weighted_votes[0][0] < weighted_votes[1][0] * self.min_superplurality or rooms[0] == rooms[1]:
resolved_room = rooms[0]
else: # there was no superplurality
resolved_room = 'unknown'
if resolved_room is None:
resolved_room = 'unknown'
return resolved_room
def resolve_room2(self, weighted_votes, device):
rooms = []
def resolve_inner(i, recur=True):
rssi, count, source = weighted_votes[i]
alias = self.room_aliases[source]
if isinstance(alias, str): # direct mapping
return (rssi, count, alias)
elif 'secondary_clarifiers' in alias:
clarifiers = alias['secondary_clarifiers']
# Look over the candidate clarifiers, which is everything with a higher signal strength & the next one
clarifying_sources = []
for j, (c_rssi, c_count, c_source) in enumerate(weighted_votes[0:min(i+2, len(weighted_votes))]):
if j != i and c_rssi < rssi * self.min_superplurality: # we can't self-clarify, of course, and we should only clarify if they're similar in strength (TODO is this true)
clarifying_sources.append((j, (c_rssi, c_count, c_source)))
# map each clarifying source to rssi + room
resolved_clarifying_sources = []
for j, (c_rssi, c_count, c_source) in clarifying_sources:
if c_source in clarifiers: # it's a source -> room mapping
resolved_clarifying_sources.append((c_rssi, c_count, clarifiers[c_source]))
elif recur: # we can try to resolve once
x = resolve_inner(j, recur=False)
if x is not None:
(c_rssi_resolve, c_count_resolved, c_source_resolved) = x
if c_source_resolved in clarifiers: # we can now resolve the room
resolved_clarifying_sources.append((c_rssi_resolve, c_count_resolved, clarifiers[c_source_resolved]))
else:
pass # we can't resolve devices to rooms on the 2nd recurrance
# we have a list of rssi,count,room in resolved_clarifying_sources that all matched 2ndary clarifiers
# if all rooms are the same, just return that
if len(set(room for (_,_,room) in resolved_clarifying_sources)) == 1:
return resolved_clarifying_sources[0]
# The first clarifier that's superplural to others that don't match wins
for c_rssi, c_count, c_room in resolved_clarifying_sources:
nonmatching_min_rssi = min(rssi for (rssi, _, room) in resolved_clarifying_sources if room != c_room)
if c_rssi < nonmatching_min_rssi * self.min_superplurality:
# winner
return (c_rssi, c_count, c_room)
if 'default' in alias:
return (rssi, count, alias['default'])
else:
raise ValueError(f'invalid alias config: {alias}')
for i, (rssi, count, source) in enumerate(weighted_votes):
room = resolve_inner(i)
if room is not None:
rooms.append(room)
resolved_room = 'unknown'
if len(rooms) == 1:
(_,_,resolved_room) = rooms[0]
elif len(rooms) >= 2:
if rooms[0][0] < rooms[1][0] * self.min_superplurality or rooms[0][2] == rooms[1][2]:
resolved_room = rooms[0][2]
else: # there was no superplurality
resolved_room = 'unknown'
return resolved_room
def prune_old_obs(self, obs):
while obs and (obs[0][0] + self.tracking_window).timestamp() < datetime.now().timestamp():
obs.pop(0)