move bus_synthesizer logic to thrimshim and adapt to existing api

bus-post-processing
Mike Lang 2 weeks ago
parent b1e0b45b0b
commit 3e738262bc

@ -1,16 +0,0 @@
import gevent.monkey
gevent.monkey.patch_all()
import logging
import os
import argh
from thrimshim.main import main
LOG_FORMAT = "[%(asctime)s] %(levelname)8s %(name)s(%(module)s:%(lineno)d): %(message)s"
level = os.environ.get('WUBLOADER_LOG_LEVEL', 'INFO').upper()
logging.basicConfig(level=level, format=LOG_FORMAT)
argh.dispatch_command(main)

@ -1,41 +1,13 @@
import datetime import datetime
import itertools import itertools
import json
import math import math
import operator import operator
import argh import common.database
import base64
import flask
import gevent
import gevent.backdoor
from gevent.pywsgi import WSGIServer
import common
from common import database
from common.flask_stats import request_stats, after_request
app = flask.Flask('bus_synthesizer')
app.after_request(after_request)
MAX_SPEED = 45 / 3600 MAX_SPEED = 45 / 3600
def cors(app):
"""WSGI middleware that sets CORS headers"""
HEADERS = [
("Access-Control-Allow-Credentials", "false"),
("Access-Control-Allow-Headers", "*"),
("Access-Control-Allow-Methods", "GET,POST,HEAD"),
("Access-Control-Allow-Origin", "*"),
("Access-Control-Max-Age", "86400"),
]
def handle(environ, start_response):
def _start_response(status, headers, exc_info=None):
headers += HEADERS
return start_response(status, headers, exc_info)
return app(environ, _start_response)
return handle
def post_process_miles(seconds, miles, days): def post_process_miles(seconds, miles, days):
good = [] good = []
@ -169,17 +141,16 @@ def post_process_clocks(seconds, clocks, days):
return corrected_clocks return corrected_clocks
@app.route('/bus_synthesizer/latest')
@request_stats def get_latest(channel, conn):
def latest():
ago_30_min = datetime.datetime.utcnow() - datetime.timedelta(minutes=30) ago_30_min = datetime.datetime.utcnow() - datetime.timedelta(minutes=30)
query = common.database.query(app.db_manager.get_conn(), """ query = common.database.query(conn, """
SELECT timestamp, odometer, clock, timeofday SELECT timestamp, odometer, clock, timeofday
FROM bus_data FROM bus_data
WHERE timestamp > %(start)s WHERE timestamp > %(start)s
--AND NOT segment LIKE '%%partial%%' AND channel = %(channel)s
ORDER BY timestamp; ORDER BY timestamp;
""", start=ago_30_min) """, channel=channel, start=ago_30_min)
rows = query.fetchall() rows = query.fetchall()
times, miles, clocks, days = zip(*rows) times, miles, clocks, days = zip(*rows)
@ -223,8 +194,9 @@ def latest():
# before 6:40 is pm # before 6:40 is pm
if latest['clock'] < 6 * 60 + 40: if latest['clock'] < 6 * 60 + 40:
is_pm = True is_pm = True
# after 7:00 is am
elif latest['clock'] >= 7 * 60: elif latest['clock'] >= 7 * 60:
is_pm = True is_pm = False
else: else:
# 6:40 to 7:00 is ambiguous; look back 21 min # 6:40 to 7:00 is ambiguous; look back 21 min
twenty_one = None twenty_one = None
@ -237,11 +209,9 @@ def latest():
else: else:
is_pm = True is_pm = True
hour = latest['clock'] // 60 processed_clock = latest['clock']
minute = latest['clock'] % 60
if is_pm: if is_pm:
hour += 12 processed_clock += 12 * 60
proccessed_clock = '{}:{:02d}'.format(hour, minute)
else: else:
proccessed_clock = None proccessed_clock = None
@ -257,10 +227,7 @@ def latest():
now_second = (now - times[0]) / datetime.timedelta(seconds=1) now_second = (now - times[0]) / datetime.timedelta(seconds=1)
if latest['clock']: if latest['clock']:
diff = int(math.floor((now - latest['time']) / datetime.timedelta(minutes = 1))) diff = int(math.floor((now - latest['time']) / datetime.timedelta(minutes = 1)))
new_clock = hour * 60 + minute + diff predicted_clock = processed_clock + diff
minute = new_clock % 60
hour = (new_clock // 60) % 24
predicted_clock = '{}:{:02d}'.format(hour, minute)
else: else:
predicted_clock = None predicted_clock = None
@ -268,41 +235,12 @@ def latest():
else: else:
predicted = None, None, None, None predicted = None, None, None, None
output = {'raw':tuple_to_dict(raw), return {
'post_processed':tuple_to_dict(processed), 'raw': tuple_to_dict(raw),
'predicted':tuple_to_dict(predicted), 'post_processed': tuple_to_dict(processed),
} 'predicted': tuple_to_dict(predicted),
}
return to_json(output)
def tuple_to_dict(t, names=['time', 'odometer', 'timeofday', 'clock_minutes']):
def tuple_to_dict(t, names=['time', 'mile', 'ToD', 'clock']):
return {names[i]:t[i] for i in range(len(t))} return {names[i]:t[i] for i in range(len(t))}
# copied from thrimshim
def to_json(obj):
def convert(value):
if isinstance(value, datetime.datetime):
return value.isoformat()
if isinstance(value, datetime.timedelta):
return value.total_seconds()
if isinstance(value, memoryview) or isinstance(value, bytes):
return base64.b64encode(bytes(value)).decode()
raise TypeError(f"Can't convert object of type {value.__class__.__name__} to JSON: {value}")
return json.dumps(obj, default=convert)
def main(connection_string, host='0.0.0.0', port=8004, backdoor_port=0):
server = WSGIServer((host, port), cors(app))
app.db_manager = database.DBManager(dsn=connection_string)
common.PromLogCountsHandler.install()
common.install_stacksampler()
if backdoor_port:
gevent.backdoor.BackdoorServer(('127.0.0.1', backdoor_port), locals=locals()).start()
common.serve_with_graceful_shutdown(server)

@ -15,13 +15,15 @@ import prometheus_client
from psycopg2 import sql from psycopg2 import sql
import common import common
from common import database, dateutil from common import database
from common.flask_stats import request_stats, after_request from common.flask_stats import request_stats, after_request
from common.segments import KNOWN_XFADE_TRANSITIONS, CUSTOM_XFADE_TRANSITIONS from common.segments import KNOWN_XFADE_TRANSITIONS, CUSTOM_XFADE_TRANSITIONS
import google.oauth2.id_token import google.oauth2.id_token
import google.auth.transport.requests import google.auth.transport.requests
from . import bus_stats
app = flask.Flask('thrimshim') app = flask.Flask('thrimshim')
app.after_request(after_request) app.after_request(after_request)
@ -779,97 +781,22 @@ def get_thumbnail(ident):
return '', 404 return '', 404
@app.route('/thrimshim/bus/<channel>') @app.route('/thrimshim/bus/<channel>')
@request_stats @request_stats
def get_odometer(channel): def get_odometer(channel):
"""Not directly thrimbletrimmer related but easiest to put here as we have DB access. """Not directly thrimbletrimmer related but easiest to put here as we have DB access.
Checks DB for the most recent odometer reading as of `time` param (default now). Checks DB for the most recent odometer reading.
However, won't consider readings older than `range` param (default 1 minute) Optional param type can be one of:
You can also pass `extrapolate`=`true` to try to extrapolate the reading at your requested time raw: The most recent value, unmodified
based on the last known time. Note it will still only look within `range` for the last known time. processed: The most recent value, excluding outliers and detected mistakes
If it can't find a reading, returns 0. predicted: processed, but extrapolated to the current time.
""" """
time = flask.request.args.get("time") type = flask.request.args.get("type")
if time is None:
time = datetime.datetime.utcnow()
else:
time = dateutil.parse(time)
range = int(flask.request.args.get("range", "60"))
range = datetime.timedelta(seconds=range)
extrapolate = (flask.request.args.get("extrapolate") == "true")
conn = app.db_manager.get_conn() conn = app.db_manager.get_conn()
start = time - range values = bus_stats.get_latest(channel, conn)
end = time if type not in values:
return f"Unknown type: {type!r}", 400
# Get newest non-errored row within time range return to_json(values[type])
# Exclude obviously wrong values, in particular 7000 which 1000 is mistaken for.
results = database.query(conn, """
SELECT timestamp, odometer
FROM bus_data
WHERE odometer IS NOT NULL
AND odometer >= 109
AND odometer < 7000
AND channel = %(channel)s
AND timestamp > %(start)s
AND timestamp <= %(end)s
ORDER BY timestamp DESC
LIMIT 1
""", channel=channel, start=start, end=end)
result = results.fetchone()
if result is None:
odometer = None
elif extrapolate:
# Current extrapolate strategy is very simple: presume we're going at full speed (45mph).
SPEED = 45. / 3600 # in miles per second
delta_t = (time - result.timestamp).total_seconds()
delta_odo = delta_t * SPEED
odometer = result.odometer + delta_odo
else:
odometer = result.odometer
results = database.query(conn, """
SELECT timestamp, clock, timeofday
FROM bus_data
WHERE clock IS NOT NULL
AND channel = %(channel)s
AND timestamp > %(start)s
AND timestamp <= %(end)s
ORDER BY timestamp DESC
LIMIT 1
""", channel=channel, start=start, end=end)
result = results.fetchone()
if result is None:
clock24h = None
timeofday = None
clock_face = None
else:
clock12h = result.clock
# HACK: assume null means dawn, as we can reliably detect everything else.
timeofday = result.timeofday or "dawn"
clock24h = clock12h
if time_is_pm(conn, result.timestamp, clock12h, timeofday):
clock24h += 720
if extrapolate:
delta_t = (time - result.timestamp).total_seconds()
clock12h += delta_t
clock24h += delta_t
clock12h %= 720
clock24h %= 1440
clock_face = "{}:{:02d}".format(clock12h // 60, int(clock12h % 60))
return {
"odometer": odometer,
"clock_minutes": clock24h,
"clock": clock_face,
"timeofday": timeofday,
}
def time_is_pm(conn, timestamp, clock, timeofday): def time_is_pm(conn, timestamp, clock, timeofday):

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