1240 lines
52 KiB
Python
Executable File
1240 lines
52 KiB
Python
Executable File
#!/usr/bin/env python
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# -*- coding: utf-8 -*-
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__version__ = '0.1'
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__author__ = 'Marcel Paffrath'
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import os
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import traceback
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import yaml
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import argparse
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import time
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from datetime import timedelta
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import numpy as np
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import matplotlib.pyplot as plt
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from obspy import read, UTCDateTime, Stream
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from obspy.clients.filesystem.sds import Client
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from write_utils import write_html_text, write_html_row, write_html_footer, write_html_header, get_print_title_str, \
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init_html_table, finish_html_table
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from utils import get_bg_color, modify_stream_for_plot, set_axis_yticks, set_axis_color, plot_axis_thresholds
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try:
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import smtplib
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from email.mime.text import MIMEText
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mail_functionality = True
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except ImportError:
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print('Could not import smtplib or mail. Disabled sending mails.')
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mail_functionality = False
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pjoin = os.path.join
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UP = "\x1B[{length}A"
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CLR = "\x1B[0K"
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deg_str = '\N{DEGREE SIGN}C'
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def read_yaml(file_path, n_read=3):
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for index in range(n_read):
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try:
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with open(file_path, "r") as f:
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params = yaml.safe_load(f)
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except Exception as e:
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print(f'Could not read parameters file: {e}.\nWill try again {n_read - index - 1} time(s).')
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time.sleep(10)
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continue
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return params
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def nsl_from_id(nwst_id):
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network, station, location = nwst_id.split('.')
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return dict(network=network, station=station, location=location)
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def get_nwst_id(trace):
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stats = trace.stats
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return f'{stats.network}.{stats.station}.' # {stats.location}'
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def fancy_timestr(dt, thresh=600, modif='+'):
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if dt > timedelta(seconds=thresh):
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value = f'{modif} ' + str(dt) + f' {modif}'
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else:
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value = str(dt)
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return value
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class SurveillanceBot(object):
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def __init__(self, parameter_path, outpath_html=None):
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self.keys = ['last active', '230V', '12V', 'router', 'charger', 'voltage', 'mass', 'clock', 'gaps', 'temp',
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'other']
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self.parameter_path = parameter_path
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self.update_parameters()
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self.starttime = UTCDateTime()
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self.plot_hour = self.starttime.hour
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self.current_day = self.starttime.julday
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self.outpath_html = outpath_html
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self.filenames = []
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self.filenames_wf_data = []
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self.filenames_read = []
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self.station_list = []
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self.analysis_print_list = []
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self.analysis_results = {}
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self.status_track = {}
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self.dataStream = Stream()
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self.data = {}
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self.gaps = []
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self.print_count = 0
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self.status_message = ''
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self.html_fig_dir = 'figures'
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self.cl = Client(self.parameters.get('datapath')) # TODO: Check if this has to be loaded again on update
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self.get_stations()
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def update_parameters(self):
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self.parameters = read_yaml(self.parameter_path)
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# add channels to list in parameters dictionary, also add data channels
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channels = list(self.parameters.get('CHANNELS').keys())
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for channel in self.parameters.get('data_channels'):
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if not channel in channels:
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channels.append(channel)
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self.parameters['channels'] = channels
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self.reread_parameters = self.parameters.get('reread_parameters')
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self.dt_thresh = [int(val) for val in self.parameters.get('dt_thresh')]
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self.verbosity = self.parameters.get('verbosity')
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self.stations_blacklist = self.parameters.get('stations_blacklist')
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self.networks_blacklist = self.parameters.get('networks_blacklist')
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self.refresh_period = self.parameters.get('interval')
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self.transform_parameters()
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add_links = self.parameters.get('add_links')
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self.add_links = add_links if add_links else {}
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def transform_parameters(self):
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for key in ['networks', 'stations', 'locations', 'channels']:
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parameter = self.parameters.get(key)
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if type(parameter) == str:
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self.parameters[key] = list(self.parameters[key])
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elif type(parameter) not in [list]:
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raise TypeError(f'Bad input type for {key}: {type(key)}')
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def get_stations(self):
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networks = self.parameters.get('networks')
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stations = self.parameters.get('stations')
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self.station_list = []
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nwst_list = self.cl.get_all_stations()
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for nw, st in nwst_list:
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if self.stations_blacklist and st in self.stations_blacklist:
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continue
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if self.networks_blacklist and nw in self.networks_blacklist:
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continue
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if (networks == ['*'] or nw in networks) and (stations == ['*'] or st in stations):
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nwst_id = f'{nw}.{st}.'
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self.station_list.append(nwst_id)
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def get_filenames(self):
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self.filenames = []
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self.filenames_wf_data = []
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time_now = UTCDateTime()
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t1 = time_now - self.parameters.get('timespan') * 24 * 3600
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networks = self.parameters.get('networks')
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stations = self.parameters.get('stations')
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locations = self.parameters.get('locations')
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channels = self.parameters.get('channels')
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channels_wf_data = self.parameters.get('data_channels')
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for network in networks:
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for station in stations:
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for location in locations:
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for channel in channels:
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fnames = list(self.cl._get_filenames(network, station, location, channel,
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starttime=t1, endtime=time_now))
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self.filenames += fnames
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# keep track of filenames with wf data (only read headers later)
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if channel in channels_wf_data:
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self.filenames_wf_data += fnames
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def read_data(self, re_read_at_hour=1, daily_overlap=2):
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'''
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read data method reads new data into self.stream
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:param re_read_at_hour: update archive at specified hour each day (hours up to 24)
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:param daily_overlap: re-read data of previous day until specified hour (hours up to 24)
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'''
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self.data = {}
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# re-read all data every new day
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curr_time = UTCDateTime()
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current_day = curr_time.julday
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current_hour = curr_time.hour
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yesterday = (curr_time - 24. * 3600.).julday
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if re_read_at_hour is not False and current_day != self.current_day and current_hour == re_read_at_hour:
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self.filenames_read = []
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self.dataStream = Stream()
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self.current_day = current_day
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# add all data to current stream
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for filename in self.filenames:
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if filename in self.filenames_read:
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continue
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try:
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# read only header of wf_data
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if filename in self.filenames_wf_data:
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st_new = read(filename, headonly=True)
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else:
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st_new = read(filename, dtype=float)
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# add file to read filenames to prevent re-reading in case it is not the current day (or end of
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# previous day)
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if not filename.endswith(f'{current_day:03}') and not (
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filename.endswith(f'{yesterday:03}') and current_hour <= daily_overlap):
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self.filenames_read.append(filename)
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except Exception as e:
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print(f'Could not read file {filename}:', e)
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continue
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self.dataStream += st_new
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self.gaps = self.dataStream.get_gaps(min_gap=self.parameters['THRESHOLDS'].get('min_gap'))
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self.dataStream.merge()
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# organise data in dictionary with key for each station
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for trace in self.dataStream:
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nwst_id = get_nwst_id(trace)
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if not nwst_id in self.data.keys():
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self.data[nwst_id] = Stream()
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self.data[nwst_id].append(trace)
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def execute_qc(self):
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if self.reread_parameters:
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self.update_parameters()
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self.get_filenames()
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self.read_data()
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qc_starttime = UTCDateTime()
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self.analysis_print_list = []
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self.analysis_results = {}
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for nwst_id in sorted(self.station_list):
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stream = self.data.get(nwst_id)
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if stream:
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nsl = nsl_from_id(nwst_id)
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station_qc = StationQC(self, stream, nsl, self.parameters, self.keys, qc_starttime,
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self.verbosity, print_func=self.print,
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status_track=self.status_track.get(nwst_id))
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analysis_print_result = station_qc.return_print_analysis()
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station_dict = station_qc.return_analysis()
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else:
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analysis_print_result = self.get_no_data_station(nwst_id, to_print=True)
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station_dict = self.get_no_data_station(nwst_id)
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self.analysis_print_list.append(analysis_print_result)
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self.analysis_results[nwst_id] = station_dict
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self.track_status()
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self.update_status_message()
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return 'ok'
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def track_status(self):
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"""
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tracks error status of the last n_track + 1 errors.
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"""
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n_track = self.parameters.get('n_track')
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if not n_track or n_track < 1:
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return
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for nwst_id, analysis_dict in self.analysis_results.items():
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if not nwst_id in self.status_track.keys():
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self.status_track[nwst_id] = {}
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for key, status in analysis_dict.items():
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if not key in self.status_track[nwst_id].keys():
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self.status_track[nwst_id][key] = []
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track_lst = self.status_track[nwst_id][key]
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# pop list until length is n_track + 1
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while len(track_lst) > n_track:
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track_lst.pop(0)
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track_lst.append(status.is_error)
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def get_no_data_station(self, nwst_id, no_data='-', to_print=False):
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delay = self.get_station_delay(nwst_id)
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if not to_print:
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status_dict = {}
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for key in self.keys:
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if key == 'last active':
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status_dict[key] = Status(message=timedelta(seconds=int(delay)), detailed_messages=['No data'])
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else:
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status_dict[key] = Status(message=no_data, detailed_messages=['No data'])
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return status_dict
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else:
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items = [nwst_id.rstrip('.')] + [fancy_timestr(timedelta(seconds=int(delay)))]
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for _ in range(len(self.keys) - 1):
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items.append(no_data)
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return items
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def get_station_delay(self, nwst_id):
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""" try to get station delay from SDS archive using client"""
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locations = ['', '0', '00']
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channels = self.parameters.get('channels') + self.parameters.get('data_channels')
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network, station = nwst_id.split('.')[:2]
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times = []
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for channel in channels:
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for location in locations:
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t = self.cl.get_latency(network, station, location, channel)
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if t:
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times.append(t)
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if len(times) > 0:
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return min(times)
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def print_analysis(self):
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self.print(200 * '+')
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title_str = get_print_title_str(self.parameters)
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self.print(title_str)
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if self.refresh_period > 0:
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self.print(f'Refreshing every {self.refresh_period}s.')
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items = ['Station'] + self.keys
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self.console_print(items, sep='---')
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for items in self.analysis_print_list:
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self.console_print(items)
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def start(self):
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'''
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Perform qc periodically.
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:param refresh_period: Update every x seconds
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:return:
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'''
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first_exec = True
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status = 'ok'
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while status == 'ok' and self.refresh_period > 0:
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status = self.execute_qc()
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if self.outpath_html:
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self.write_html_table()
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if self.parameters.get('html_figures'):
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self.write_html_figures(check_plot_time=not (first_exec))
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else:
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self.print_analysis()
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time.sleep(self.refresh_period)
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if not self.outpath_html:
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self.clear_prints()
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first_exec = False
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def console_print(self, itemlist, str_len=21, sep='|', seplen=3):
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assert len(sep) <= seplen, f'Make sure seperator has less than {seplen} characters'
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sl = sep.ljust(seplen)
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sr = sep.rjust(seplen)
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string = sl
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for item in itemlist:
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string += item.center(str_len) + sr
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self.print(string, flush=False)
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def check_plot_hour(self):
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''' Check if new hour started '''
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current_hour = UTCDateTime().hour
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if not current_hour > self.plot_hour:
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return False
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if current_hour == 23:
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self.plot_hour = 0
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else:
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self.plot_hour += 1
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return True
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def get_fig_path_abs(self, nwst_id):
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return pjoin(self.outpath_html, self.get_fig_path_rel(nwst_id))
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def get_fig_path_rel(self, nwst_id, fig_format='png'):
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return os.path.join(self.html_fig_dir, f'{nwst_id.rstrip(".")}.{fig_format}')
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def check_fig_dir(self):
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fdir = pjoin(self.outpath_html, self.html_fig_dir)
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if not os.path.isdir(fdir):
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os.mkdir(fdir)
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def check_html_dir(self):
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if not os.path.isdir(self.outpath_html):
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os.mkdir(self.outpath_html)
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def write_html_figures(self, check_plot_time=True):
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""" Write figures for html (e.g. hourly) """
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if check_plot_time and not self.check_plot_hour():
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return
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for nwst_id in self.station_list:
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self.write_html_figure(nwst_id)
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def write_html_figure(self, nwst_id):
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""" Write figure for html for specified station """
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self.check_fig_dir()
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fig = plt.figure(figsize=(16, 9))
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fnout = self.get_fig_path_abs(nwst_id)
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st = self.data.get(nwst_id)
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if st:
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# TODO: this section failed once, adding try-except block for analysis and to prevent program from crashing
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try:
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endtime = UTCDateTime()
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starttime = endtime - self.parameters.get('timespan') * 24 * 3600
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st = modify_stream_for_plot(st, parameters=self.parameters)
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st.plot(fig=fig, show=False, draw=False, block=False, equal_scale=False, method='full',
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starttime=starttime, endtime=endtime)
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# set_axis_ylabels(fig, self.parameters, self.verbosity)
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set_axis_yticks(fig, self.parameters, self.verbosity)
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set_axis_color(fig)
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plot_axis_thresholds(fig, self.parameters, self.verbosity)
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except Exception as e:
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print(f'Could not generate plot for {nwst_id}:')
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print(traceback.format_exc())
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if len(fig.axes) > 0:
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ax = fig.axes[0]
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ax.set_title(f'Plot refreshed at (UTC) {UTCDateTime.now().strftime("%Y-%m-%d %H:%M:%S")}. '
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f'Refreshed hourly or on FAIL status.')
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for ax in fig.axes:
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ax.grid(True, alpha=0.1)
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fig.savefig(fnout, dpi=150., bbox_inches='tight')
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plt.close(fig)
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def write_html_table(self, default_color='#e6e6e6', default_header_color='#999', hide_keys_mobile=('other')):
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def get_html_class(status=None, check_key=None):
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""" helper function for html class if a certain condition is fulfilled """
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html_class = None
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if status and status.is_active:
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html_class = 'blink-bg'
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if check_key in hide_keys_mobile:
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html_class = 'hidden-mobile'
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return html_class
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self.check_html_dir()
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fnout = pjoin(self.outpath_html, 'survBot_out.html')
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if not fnout:
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return
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try:
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with open(fnout, 'w') as outfile:
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write_html_header(outfile, self.refresh_period)
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# write_html_table_title(outfile, self.parameters)
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init_html_table(outfile)
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# First write header items
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header = self.keys.copy()
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# add columns for additional links
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for key in self.add_links:
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header.insert(-1, key)
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header_items = [dict(text='Station', color=default_header_color)]
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for check_key in header:
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html_class = get_html_class(check_key=check_key)
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item = dict(text=check_key, color=default_header_color, html_class=html_class)
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header_items.append(item)
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write_html_row(outfile, header_items, html_key='th')
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# Write all cells
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for nwst_id in self.station_list:
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fig_name = self.get_fig_path_rel(nwst_id)
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nwst_id_str = nwst_id.rstrip('.')
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col_items = [dict(text=nwst_id_str, color=default_color, hyperlink=fig_name,
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bold=True, tooltip=f'Show plot of {nwst_id_str}')]
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for check_key in header:
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if check_key in self.keys:
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status_dict = self.analysis_results.get(nwst_id)
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status = status_dict.get(check_key)
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message, detailed_message = status.get_status_str()
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# get background color
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dt_thresh = [timedelta(seconds=sec) for sec in self.dt_thresh]
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bg_color = get_bg_color(check_key, status, dt_thresh, hex=True)
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if not bg_color:
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bg_color = default_color
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# add degree sign for temp
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if check_key == 'temp':
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if not type(message) in [str]:
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message = str(message) + deg_str
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html_class = get_html_class(status=status, check_key=check_key)
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item = dict(text=str(message), tooltip=str(detailed_message), color=bg_color,
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html_class=html_class)
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elif check_key in self.add_links:
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value = self.add_links.get(check_key).get('URL')
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link_text = self.add_links.get(check_key).get('text')
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if not value:
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continue
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nw, st = nwst_id.split('.')[:2]
|
|
hyperlink_dict = dict(nw=nw, st=st, nwst_id=nwst_id)
|
|
link = value.format(**hyperlink_dict)
|
|
item = dict(text=link_text, tooltip=link, hyperlink=link, color=default_color)
|
|
col_items.append(item)
|
|
|
|
write_html_row(outfile, col_items)
|
|
|
|
finish_html_table(outfile)
|
|
write_html_text(outfile, self.status_message)
|
|
write_html_footer(outfile)
|
|
except Exception as e:
|
|
print(f'Could not write HTML table to {fnout}:')
|
|
print(traceback.format_exc())
|
|
|
|
if self.verbosity:
|
|
print(f'Wrote html table to {fnout}')
|
|
|
|
def update_status_message(self):
|
|
timespan = timedelta(seconds=int(self.parameters.get('timespan') * 24 * 3600))
|
|
self.status_message = f'Program starttime (UTC) {self.starttime.strftime("%Y-%m-%d %H:%M:%S")} | ' \
|
|
f'Current time (UTC) {UTCDateTime().strftime("%Y-%m-%d %H:%M:%S")} | ' \
|
|
f'Refresh period: {self.refresh_period}s | ' \
|
|
f'Showing data of last {timespan}'
|
|
|
|
def print(self, string, **kwargs):
|
|
clear_end = CLR + '\n'
|
|
n_nl = string.count('\n')
|
|
string.replace('\n', clear_end)
|
|
print(string, end=clear_end, **kwargs)
|
|
self.print_count += n_nl + 1 # number of newlines + actual print with end='\n' (no check for kwargs end!)
|
|
# print('pc:', self.print_count)
|
|
|
|
def clear_prints(self):
|
|
print(UP.format(length=self.print_count), end='')
|
|
self.print_count = 0
|
|
|
|
|
|
class StationQC(object):
|
|
def __init__(self, parent, stream, nsl, parameters, keys, starttime, verbosity, print_func, status_track=None):
|
|
"""
|
|
Station Quality Check class.
|
|
:param nsl: dictionary containing network, station and location (key: str)
|
|
:param parameters: parameters dictionary from parameters.yaml file
|
|
"""
|
|
if status_track is None:
|
|
status_track = {}
|
|
self.parent = parent
|
|
self.stream = stream
|
|
self.nsl = nsl
|
|
self.network = nsl.get('network')
|
|
self.station = nsl.get('station')
|
|
self.location = nsl.get('location')
|
|
self.parameters = parameters
|
|
self.program_starttime = starttime
|
|
self.verbosity = verbosity
|
|
self.last_active = False
|
|
self.print = print_func
|
|
|
|
self.keys = keys
|
|
self.status_dict = {key: Status() for key in self.keys}
|
|
|
|
if not status_track:
|
|
status_track = {}
|
|
self.status_track = status_track
|
|
|
|
self.start()
|
|
|
|
@property
|
|
def nwst_id(self):
|
|
return f'{self.network}.{self.station}'
|
|
|
|
def status_ok(self, key, detailed_message="Everything OK", status_message='OK', overwrite=False):
|
|
current_status = self.status_dict.get(key)
|
|
# do not overwrite existing warnings or errors
|
|
if not overwrite and (current_status.is_warn or current_status.is_error):
|
|
return
|
|
self.status_dict[key] = StatusOK(message=status_message, detailed_messages=[detailed_message])
|
|
|
|
def warn(self, key, detailed_message, last_occurrence=None, count=1):
|
|
if key == 'other':
|
|
self.status_other(detailed_message, last_occurrence, count)
|
|
|
|
new_warn = StatusWarn(count=count, show_count=self.parameters.get('warn_count'))
|
|
|
|
current_status = self.status_dict.get(key)
|
|
|
|
# change this to something more useful, SMS/EMAIL/PUSH
|
|
if self.verbosity:
|
|
self.print(f'{UTCDateTime()}: {detailed_message}', flush=False)
|
|
|
|
# if error, do not overwrite with warning
|
|
if current_status.is_error:
|
|
return
|
|
|
|
if current_status.is_warn:
|
|
current_status.count += count
|
|
else:
|
|
current_status = new_warn
|
|
|
|
self._update_status(key, current_status, detailed_message, last_occurrence)
|
|
|
|
# warnings.warn(message)
|
|
|
|
# # update detailed status if already existing
|
|
# current_message = self.detailed_status_dict.get(key)
|
|
# current_message = '' if current_message in [None, '-'] else current_message + ' | '
|
|
# self.detailed_status_dict[key] = current_message + detailed_message
|
|
#
|
|
# # this is becoming a little bit too complicated (adding warnings to existing)
|
|
# current_status_message = self.status_dict.get(key)
|
|
# current_status_message = '' if current_status_message in [None, 'OK', '-'] else current_status_message + ' | '
|
|
# self.status_dict[key] = current_status_message + status_message
|
|
|
|
def error(self, key, detailed_message, last_occurrence=None, count=1):
|
|
new_error = StatusError(count=count, show_count=self.parameters.get('warn_count'))
|
|
current_status = self.status_dict.get(key)
|
|
if current_status.is_error:
|
|
current_status.count += count
|
|
else:
|
|
current_status = new_error
|
|
# if error is new and not on program-startup set active and refresh plot (using parent class)
|
|
if self.search_previous_errors(key, n_errors=1) is True:
|
|
self.parent.write_html_figure(self.nwst_id)
|
|
|
|
if self.verbosity:
|
|
self.print(f'{UTCDateTime()}: {detailed_message}', flush=False)
|
|
|
|
# do not send error mail if this is the first run (e.g. program startup) or state was already error (unchanged)
|
|
if self.search_previous_errors(key) is True:
|
|
self.send_mail(key, status_type='FAIL', additional_message=detailed_message)
|
|
# set status to "inactive" after sending info mail
|
|
current_status.is_active = False
|
|
elif self.search_previous_errors(key) == 'active':
|
|
current_status.is_active = True
|
|
|
|
self._update_status(key, current_status, detailed_message, last_occurrence)
|
|
|
|
def search_previous_errors(self, key, n_errors=None):
|
|
"""
|
|
Check n_track + 1 previous statuses for errors.
|
|
If first item in list is no error but all others are return True
|
|
(first time n_track errors appeared if ALL n_track + 1 are error: error is old)
|
|
If last item is error but not all items are error yet return keyword 'active' -> error active, no message sent
|
|
In all other cases return False.
|
|
This also prevents sending status (e.g. mail) in case of program startup
|
|
"""
|
|
if n_errors is None:
|
|
n_errors = self.parameters.get('n_track')
|
|
|
|
# +1 to check whether n_errors +1 was no error (error is new)
|
|
n_errors += 1
|
|
|
|
previous_errors = self.status_track.get(key)
|
|
# only if error list is filled n_track times
|
|
if previous_errors and len(previous_errors) == n_errors:
|
|
# if first entry was no error but all others are, return True (-> new Fail n_track times)
|
|
if not previous_errors[0] and all(previous_errors[1:]):
|
|
return True
|
|
# in case previous_errors exists, last item is error but not all items are error, error still active
|
|
elif previous_errors and previous_errors[-1] and not all(previous_errors):
|
|
return 'active'
|
|
return False
|
|
|
|
def send_mail(self, key, status_type, additional_message=''):
|
|
""" Send info mail using parameters specified in parameters file """
|
|
if not mail_functionality:
|
|
if self.verbosity:
|
|
print('Mail functionality disabled. Return')
|
|
return
|
|
|
|
mail_params = self.parameters.get('EMAIL')
|
|
if not mail_params:
|
|
if self.verbosity:
|
|
print('parameter "EMAIL" not set in parameter file. Return')
|
|
return
|
|
|
|
stations_blacklist = mail_params.get('stations_blacklist')
|
|
if stations_blacklist and self.station in stations_blacklist:
|
|
if self.verbosity:
|
|
print(f'Station {self.station} listed in blacklist. Return')
|
|
return
|
|
|
|
networks_blacklist = mail_params.get('networks_blacklist')
|
|
if networks_blacklist and self.network in networks_blacklist:
|
|
if self.verbosity:
|
|
print(f'Station {self.station} of network {self.network} listed in blacklist. Return')
|
|
return
|
|
|
|
sender = mail_params.get('sender')
|
|
addresses = mail_params.get('addresses')
|
|
server = mail_params.get('mailserver')
|
|
if not sender or not addresses:
|
|
if self.verbosity:
|
|
print('Mail sender or addresses not correctly defined. Return')
|
|
return
|
|
dt = self.get_dt_for_action()
|
|
text = f'{key}: Status {status_type} longer than {dt}: ' + additional_message
|
|
msg = MIMEText(text)
|
|
msg['Subject'] = f'new message on station {self.nwst_id}'
|
|
msg['From'] = sender
|
|
msg['To'] = ', '.join(addresses)
|
|
|
|
# send message via SMTP server
|
|
s = smtplib.SMTP(server)
|
|
s.sendmail(sender, addresses, msg.as_string())
|
|
s.quit()
|
|
|
|
def get_dt_for_action(self):
|
|
n_track = self.parameters.get('n_track')
|
|
interval = self.parameters.get('interval')
|
|
dt = timedelta(seconds=n_track * interval)
|
|
return dt
|
|
|
|
def status_other(self, detailed_message, status_message, last_occurrence=None, count=1):
|
|
key = 'other'
|
|
new_status = StatusOther(count=count, messages=[status_message])
|
|
current_status = self.status_dict.get(key)
|
|
if current_status.is_other:
|
|
current_status.count += count
|
|
current_status.messages.append(status_message)
|
|
else:
|
|
current_status = new_status
|
|
|
|
self._update_status(key, current_status, detailed_message, last_occurrence)
|
|
|
|
def _update_status(self, key, current_status, detailed_message, last_occurrence):
|
|
current_status.detailed_messages.append(detailed_message)
|
|
current_status.last_occurrence = last_occurrence
|
|
|
|
self.status_dict[key] = current_status
|
|
|
|
def activity_check(self, key='last_active'):
|
|
self.last_active = self.last_activity()
|
|
if not self.last_active:
|
|
status = StatusError()
|
|
else:
|
|
dt_active = timedelta(seconds=int(self.program_starttime - self.last_active))
|
|
status = Status(message=dt_active)
|
|
self.check_for_inactive_message(key, dt_active)
|
|
|
|
self.status_dict['last active'] = status
|
|
|
|
def last_activity(self):
|
|
if not self.stream:
|
|
return
|
|
endtimes = []
|
|
for trace in self.stream:
|
|
endtimes.append(trace.stats.endtime)
|
|
if len(endtimes) > 0:
|
|
return max(endtimes)
|
|
|
|
def check_for_inactive_message(self, key, dt_active):
|
|
dt_action = self.get_dt_for_action()
|
|
interval = self.parameters.get('interval')
|
|
if dt_action <= dt_active < dt_action + timedelta(seconds=interval):
|
|
detailed_message = f'\n{self.nwst_id}\n\n'
|
|
for key, status in self.status_dict.items():
|
|
detailed_message += f'{key}: {status.message}\n'
|
|
self.send_mail(key, status_type='Inactive', additional_message=detailed_message)
|
|
|
|
def start(self):
|
|
self.analyse_channels()
|
|
|
|
def analyse_channels(self):
|
|
timespan = self.parameters.get('timespan') * 24 * 3600
|
|
self.analysis_starttime = self.program_starttime - timespan
|
|
|
|
if self.verbosity > 0:
|
|
self.print(150 * '#')
|
|
self.print('This is StationQT. Calculating quality for station'
|
|
' {network}.{station}.{location}'.format(**self.nsl))
|
|
self.voltage_analysis()
|
|
self.pb_temp_analysis()
|
|
self.pb_power_analysis()
|
|
self.pb_rout_charge_analysis()
|
|
self.mass_analysis()
|
|
self.clock_quality_analysis()
|
|
self.gaps_analysis()
|
|
|
|
# activity check should be done last for useful status output (e.g. email)
|
|
self.activity_check()
|
|
|
|
def return_print_analysis(self):
|
|
items = [self.nwst_id]
|
|
for key in self.keys:
|
|
status = self.status_dict[key]
|
|
message = status.message
|
|
if key == 'last active':
|
|
items.append(fancy_timestr(message))
|
|
elif key == 'temp':
|
|
items.append(str(message) + deg_str)
|
|
else:
|
|
items.append(str(message))
|
|
return items
|
|
|
|
def return_analysis(self):
|
|
return self.status_dict
|
|
|
|
def get_unit_factor(self, channel):
|
|
""" Get channel multiplier for unit from parameters. If none is specified return 1 """
|
|
channel_params = self.parameters.get('CHANNELS').get(channel)
|
|
if channel_params:
|
|
multiplier = channel_params.get('unit')
|
|
if multiplier:
|
|
return float(multiplier)
|
|
return 1
|
|
|
|
def get_last_occurrence_timestring(self, trace, indices):
|
|
""" returns a nicely formatted string of the timedelta since program starttime and occurrence and abs time"""
|
|
last_occur = self.get_last_occurrence(trace, indices)
|
|
if not last_occur:
|
|
return ''
|
|
last_occur_dt = timedelta(seconds=int(self.program_starttime - last_occur))
|
|
return f', Last occurrence: {last_occur_dt} ({last_occur.strftime("%Y-%m-%d %H:%M:%S")})'
|
|
|
|
def get_last_occurrence(self, trace, indices):
|
|
return self.get_time(trace, indices[-1])
|
|
|
|
def clock_quality_analysis(self, channel='LCQ', n_sample_average=10):
|
|
""" Analyse clock quality """
|
|
key = 'clock'
|
|
st = self.stream.select(channel=channel)
|
|
trace = self.get_trace(st, key)
|
|
if not trace:
|
|
return
|
|
clock_quality = trace.data
|
|
clock_quality_warn_level = self.parameters.get('THRESHOLDS').get('clockquality_warn')
|
|
clock_quality_fail_level = self.parameters.get('THRESHOLDS').get('clockquality_fail')
|
|
|
|
if self.verbosity > 1:
|
|
self.print(40 * '-')
|
|
self.print('Performing Clock Quality check', flush=False)
|
|
|
|
clockQuality_warn = np.where(clock_quality < clock_quality_warn_level)[0]
|
|
clockQuality_fail = np.where(clock_quality < clock_quality_fail_level)[0]
|
|
|
|
if len(clockQuality_warn) == 0 and len(clockQuality_fail) == 0:
|
|
self.status_ok(key, detailed_message=f'ClockQuality={(clock_quality[-1])}')
|
|
return
|
|
|
|
last_val_average = np.nanmean(clock_quality[-n_sample_average:])
|
|
|
|
# keep OK status if there are only minor warnings (lower warn level)
|
|
warn_message = f'Trace {trace.get_id()}:'
|
|
if len(clockQuality_warn) > 0:
|
|
# try calculate number of warn peaks from gaps between indices
|
|
n_qc_warn = self.calc_occurrences(clockQuality_warn)
|
|
detailed_message = warn_message + f' {n_qc_warn}x Clock quality less then {clock_quality_warn_level}%' \
|
|
+ self.get_last_occurrence_timestring(trace, clockQuality_warn)
|
|
self.status_ok(key, detailed_message=detailed_message)
|
|
|
|
# set WARN status for severe warnings in the past
|
|
if len(clockQuality_fail) > 0:
|
|
# try calculate number of fail peaks from gaps between indices
|
|
n_qc_fail = self.calc_occurrences(clockQuality_fail)
|
|
detailed_message = warn_message + f' {n_qc_fail}x Clock quality less then {clock_quality_fail_level}%' \
|
|
+ self.get_last_occurrence_timestring(trace, clockQuality_fail)
|
|
self.warn(key, detailed_message=detailed_message, count=n_qc_fail,
|
|
last_occurrence=self.get_last_occurrence(trace, clockQuality_fail))
|
|
|
|
# set FAIL state if last value is less than fail level
|
|
if last_val_average < clock_quality_fail_level:
|
|
self.error(key, detailed_message=f'ClockQuality={(clock_quality[-1])}')
|
|
|
|
def voltage_analysis(self, channel='VEI'):
|
|
""" Analyse voltage channel for over/undervoltage """
|
|
key = 'voltage'
|
|
st = self.stream.select(channel=channel)
|
|
trace = self.get_trace(st, key)
|
|
if not trace:
|
|
return
|
|
voltage = trace.data * self.get_unit_factor(channel)
|
|
low_volt = self.parameters.get('THRESHOLDS').get('low_volt')
|
|
high_volt = self.parameters.get('THRESHOLDS').get('high_volt')
|
|
|
|
if self.verbosity > 1:
|
|
self.print(40 * '-')
|
|
self.print('Performing Voltage check', flush=False)
|
|
|
|
overvolt = np.where(voltage > high_volt)[0]
|
|
undervolt = np.where(voltage < low_volt)[0]
|
|
|
|
if len(overvolt) == 0 and len(undervolt) == 0:
|
|
self.status_ok(key, detailed_message=f'U={(voltage[-1])}V')
|
|
return
|
|
|
|
warn_message = f'Trace {trace.get_id()}:'
|
|
if len(overvolt) > 0:
|
|
# try calculate number of voltage peaks from gaps between indices
|
|
n_overvolt = len(np.where(np.diff(overvolt) > 1)[0]) + 1
|
|
detailed_message = warn_message + f' {n_overvolt}x Voltage over {high_volt}V' \
|
|
+ self.get_last_occurrence_timestring(trace, overvolt)
|
|
self.warn(key, detailed_message=detailed_message, count=n_overvolt,
|
|
last_occurrence=self.get_last_occurrence(trace, overvolt))
|
|
|
|
if len(undervolt) > 0:
|
|
# try calculate number of voltage peaks from gaps between indices
|
|
n_undervolt = len(np.where(np.diff(undervolt) > 1)[0]) + 1
|
|
detailed_message = warn_message + f' {n_undervolt}x Voltage under {low_volt}V ' \
|
|
+ self.get_last_occurrence_timestring(trace, undervolt)
|
|
self.warn(key, detailed_message=detailed_message, count=n_undervolt,
|
|
last_occurrence=self.get_last_occurrence(trace, undervolt))
|
|
|
|
def pb_temp_analysis(self, channel='EX1'):
|
|
""" Analyse PowBox temperature output. """
|
|
key = 'temp'
|
|
st = self.stream.select(channel=channel)
|
|
trace = self.get_trace(st, key)
|
|
if not trace:
|
|
return
|
|
voltage = trace.data * self.get_unit_factor(channel)
|
|
thresholds = self.parameters.get('THRESHOLDS')
|
|
temp = 20. * voltage - 20
|
|
# average temp
|
|
timespan = min([self.parameters.get('timespan') * 24 * 3600, int(len(temp) / trace.stats.sampling_rate)])
|
|
nsamp_av = int(trace.stats.sampling_rate) * timespan
|
|
av_temp_str = str(round(np.nanmean(temp[-nsamp_av:]), 1)) + deg_str
|
|
# dt of average
|
|
dt_t_str = str(timedelta(seconds=int(timespan))).replace(', 0:00:00', '')
|
|
# current temp
|
|
cur_temp = round(temp[-1], 1)
|
|
if self.verbosity > 1:
|
|
self.print(40 * '-')
|
|
self.print('Performing PowBox temperature check (EX1)', flush=False)
|
|
self.print(f'Average temperature at {np.nanmean(temp)}\N{DEGREE SIGN}', flush=False)
|
|
self.print(f'Peak temperature at {max(temp)}\N{DEGREE SIGN}', flush=False)
|
|
self.print(f'Min temperature at {min(temp)}\N{DEGREE SIGN}', flush=False)
|
|
max_temp = thresholds.get('max_temp')
|
|
t_check = np.where(temp > max_temp)[0]
|
|
if len(t_check) > 0:
|
|
self.warn(key=key,
|
|
detailed_message=f'Trace {trace.get_id()}: '
|
|
f'Temperature over {max_temp}\N{DEGREE SIGN} at {trace.get_id()}!'
|
|
+ self.get_last_occurrence_timestring(trace, t_check),
|
|
last_occurrence=self.get_last_occurrence(trace, t_check))
|
|
else:
|
|
self.status_ok(key,
|
|
status_message=cur_temp,
|
|
detailed_message=f'Average temperature of last {dt_t_str}: {av_temp_str}')
|
|
|
|
def mass_analysis(self, channels=('VM1', 'VM2', 'VM3'), n_samp_mean=10):
|
|
""" Analyse datalogger mass channels. """
|
|
key = 'mass'
|
|
|
|
# build stream with all channels
|
|
st = Stream()
|
|
for channel in channels:
|
|
st += self.stream.select(channel=channel).copy()
|
|
st.merge()
|
|
|
|
# return if there are no three components
|
|
if not len(st) == 3:
|
|
return
|
|
|
|
# correct for channel unit
|
|
for trace in st:
|
|
trace.data = trace.data * self.get_unit_factor(trace.stats.channel)
|
|
|
|
# calculate average of absolute maximum of mass offset of last n_samp_mean
|
|
last_values = np.array([trace.data[-n_samp_mean:] for trace in st])
|
|
last_val_mean = np.nanmean(last_values, axis=1)
|
|
common_highest_val = np.nanmax(abs(last_val_mean))
|
|
common_highest_val = round(common_highest_val, 1)
|
|
|
|
# get thresholds for WARN (max_vm_warn) and FAIL (max_vm_fail)
|
|
thresholds = self.parameters.get('THRESHOLDS')
|
|
max_vm_warn = thresholds.get('max_vm_warn')
|
|
max_vm_fail = thresholds.get('max_vm_fail')
|
|
if not max_vm_warn or not max_vm_fail:
|
|
return
|
|
|
|
# change status depending on common_highest_val
|
|
if common_highest_val < max_vm_warn:
|
|
self.status_ok(key, detailed_message=f'{common_highest_val}V')
|
|
elif max_vm_warn <= common_highest_val < max_vm_fail:
|
|
self.warn(key=key,
|
|
detailed_message=f'Warning raised for mass centering. Highest val (abs) {common_highest_val}V', )
|
|
else:
|
|
self.error(key=key,
|
|
detailed_message=f'Fail status for mass centering. Highest val (abs) {common_highest_val}V',)
|
|
|
|
if self.verbosity > 1:
|
|
self.print(40 * '-')
|
|
self.print('Performing mass position check', flush=False)
|
|
self.print(f'Average mass position at {common_highest_val}', flush=False)
|
|
|
|
def pb_power_analysis(self, channel='EX2', pb_dict_key='pb_SOH2'):
|
|
""" Analyse EX2 channel of PowBox """
|
|
keys = ['230V', '12V']
|
|
st = self.stream.select(channel=channel)
|
|
trace = self.get_trace(st, keys)
|
|
if not trace:
|
|
return
|
|
|
|
voltage = trace.data * self.get_unit_factor(channel)
|
|
if self.verbosity > 1:
|
|
self.print(40 * '-')
|
|
self.print('Performing PowBox 12V/230V check (EX2)', flush=False)
|
|
voltage_check, voltage_dict, last_val = self.pb_voltage_ok(trace, voltage, pb_dict_key, channel=channel)
|
|
|
|
if voltage_check:
|
|
for key in keys:
|
|
self.status_ok(key)
|
|
return
|
|
|
|
soh2_params = self.parameters.get('POWBOX').get(pb_dict_key)
|
|
self.in_depth_voltage_check(trace, voltage_dict, soh2_params, last_val)
|
|
|
|
def pb_rout_charge_analysis(self, channel='EX3', pb_dict_key='pb_SOH3'):
|
|
""" Analyse EX3 channel of PowBox """
|
|
keys = ['router', 'charger']
|
|
pb_thresh = self.parameters.get('THRESHOLDS').get('pb_1v')
|
|
st = self.stream.select(channel=channel)
|
|
trace = self.get_trace(st, keys)
|
|
if not trace:
|
|
return
|
|
|
|
voltage = trace.data * self.get_unit_factor(channel)
|
|
if self.verbosity > 1:
|
|
self.print(40 * '-')
|
|
self.print('Performing PowBox Router/Charger check (EX3)', flush=False)
|
|
voltage_check, voltage_dict, last_val = self.pb_voltage_ok(trace, voltage, pb_dict_key, channel=channel)
|
|
|
|
if voltage_check:
|
|
for key in keys:
|
|
self.status_ok(key)
|
|
return
|
|
|
|
soh3_params = self.parameters.get('POWBOX').get(pb_dict_key)
|
|
self.in_depth_voltage_check(trace, voltage_dict, soh3_params, last_val)
|
|
|
|
def in_depth_voltage_check(self, trace, voltage_dict, soh_params, last_val):
|
|
""" Associate values in voltage_dict to error messages specified in SOH_params and warn."""
|
|
for volt_lvl, ind_array in voltage_dict.items():
|
|
if volt_lvl == 1:
|
|
continue # No need to do anything here
|
|
if len(ind_array) > 0:
|
|
# get result from parameter dictionary for voltage level
|
|
result = soh_params.get(volt_lvl)
|
|
for key, message in result.items():
|
|
# if result is OK, continue with next voltage level
|
|
if message == 'OK':
|
|
self.status_ok(key)
|
|
continue
|
|
if volt_lvl > 1:
|
|
n_occurrences = self.calc_occurrences(ind_array)
|
|
self.warn(key=key,
|
|
detailed_message=f'Trace {trace.get_id()}: '
|
|
f'Found {n_occurrences} occurrence(s) of {volt_lvl}V: {key}: {message}'
|
|
+ self.get_last_occurrence_timestring(trace, ind_array),
|
|
count=n_occurrences,
|
|
last_occurrence=self.get_last_occurrence(trace, ind_array))
|
|
# if last_val == current voltage (which is not 1) -> FAIL or last_val < 1: PBox no data
|
|
if volt_lvl == last_val or (volt_lvl == -1 and last_val < 1):
|
|
self.error(key, detailed_message=f'Last PowBox voltage state {last_val}V: {message}')
|
|
|
|
def gaps_analysis(self, key='gaps'):
|
|
""" return gaps of a given nwst_id """
|
|
|
|
gaps = []
|
|
for gap_list in self.parent.gaps:
|
|
nw_gap, st_gap = gap_list[:2]
|
|
if nw_gap == self.network and st_gap == self.station:
|
|
gaps.append(gap_list)
|
|
|
|
if not gaps:
|
|
self.status_ok(key=key)
|
|
return
|
|
|
|
detailed_message = ''
|
|
for gap_list in gaps:
|
|
text = '{}.{}.{}.{}: last sample - {}, next sample - {}, delta {}, samples {}\n'.format(*gap_list)
|
|
detailed_message += text
|
|
|
|
self.warn(key=key, detailed_message=detailed_message, count=len(gaps))
|
|
|
|
def calc_occurrences(self, ind_array):
|
|
# try calculate number of voltage peaks/plateaus from gaps between indices
|
|
if len(ind_array) == 0:
|
|
return 0
|
|
else:
|
|
# start index at 1 if there are gaps (n_peaks = n_gaps + 1)
|
|
n_occurrences = 1
|
|
|
|
min_samples = self.parameters.get('min_sample')
|
|
if not min_samples:
|
|
min_samples = 1
|
|
|
|
# calculated differences in index array, diff > 1: gap, diff == 1: within peak/plateau
|
|
diffs = np.diff(ind_array)
|
|
gap_start_inds = np.where(np.diff(ind_array) > 1)[0]
|
|
# iterate over all gaps and check "min_samples" before the gap
|
|
for gsi in gap_start_inds:
|
|
# right boundary index of peak (gap index - 1)
|
|
peak_rb_ind = gsi - 1
|
|
# left boundary index of peak
|
|
peak_lb_ind = max([0, peak_rb_ind - min_samples])
|
|
if all(diffs[peak_lb_ind: peak_rb_ind] == 1):
|
|
n_occurrences += 1
|
|
|
|
return n_occurrences
|
|
|
|
def get_trace(self, stream, keys):
|
|
if not type(keys) == list:
|
|
keys = [keys]
|
|
if len(stream) == 0:
|
|
for key in keys:
|
|
self.warn(key, 'NO DATA', 'NO DATA')
|
|
return
|
|
if len(stream) > 1:
|
|
raise Exception('Ambiguity error')
|
|
trace = stream[0]
|
|
if trace.stats.endtime < self.analysis_starttime:
|
|
for key in keys:
|
|
self.warn(key, 'NO DATA', 'NO DATA')
|
|
return
|
|
return trace
|
|
|
|
def pb_voltage_ok(self, trace, voltage, pb_dict_key, channel=None):
|
|
"""
|
|
Checks if voltage level is ok everywhere and returns True. If it is not okay it returns a dictionary
|
|
with each voltage value associated to the different steps specified in POWBOX > pb_steps. Also raises
|
|
self.warn in case there are unassociated voltage values recorded.
|
|
"""
|
|
pb_thresh = self.parameters.get('THRESHOLDS').get('pb_thresh')
|
|
pb_ok = self.parameters.get('POWBOX').get('pb_ok')
|
|
# possible voltage levels are keys of pb voltage level dict
|
|
voltage_levels = list(self.parameters.get('POWBOX').get(pb_dict_key).keys())
|
|
|
|
# get mean voltage value of last samples
|
|
last_voltage = np.nanmean(voltage[-3:])
|
|
|
|
# check if voltage is over or under OK-level (1V), if not return True
|
|
over = np.where(voltage > pb_ok + pb_thresh)[0]
|
|
under = np.where(voltage < pb_ok - pb_thresh)[0]
|
|
|
|
if len(over) == 0 and len(under) == 0:
|
|
return True, {}, last_voltage
|
|
|
|
# Get voltage levels for classification
|
|
voltage_dict = {}
|
|
classified_indices = np.array([])
|
|
|
|
# add classified levels to voltage_dict
|
|
for volt in voltage_levels:
|
|
indices = np.where((voltage < volt + pb_thresh) & (voltage > volt - pb_thresh))[0]
|
|
voltage_dict[volt] = indices
|
|
classified_indices = np.append(classified_indices, indices)
|
|
|
|
# Warn in case of voltage under OK-level (1V)
|
|
if len(under) > 0:
|
|
# try calculate number of occurences from gaps between indices
|
|
n_occurrences = len(np.where(np.diff(under) > 1)[0]) + 1
|
|
voltage_dict[-1] = under
|
|
self.status_other(detailed_message=f'Trace {trace.get_id()}: '
|
|
f'Voltage below {pb_ok}V in {len(under)} samples, {n_occurrences} time(s). '
|
|
f'Mean voltage: {np.mean(voltage):.2}'
|
|
+ self.get_last_occurrence_timestring(trace, under),
|
|
status_message='under 1V ({})'.format(n_occurrences))
|
|
|
|
# classify last voltage values
|
|
for volt in voltage_levels:
|
|
if (last_voltage < volt + pb_thresh) and (last_voltage > volt - pb_thresh):
|
|
last_val = volt
|
|
break
|
|
else:
|
|
last_val = round(last_voltage, 2)
|
|
|
|
# in case not all voltage values could be classified
|
|
if not len(classified_indices) == len(voltage):
|
|
all_indices = np.arange(len(voltage))
|
|
unclassified_indices = all_indices[~np.isin(all_indices, classified_indices)]
|
|
n_unclassified = len(unclassified_indices)
|
|
max_uncl = self.parameters.get('THRESHOLDS').get('unclassified')
|
|
if max_uncl and n_unclassified > max_uncl:
|
|
self.status_other(detailed_message=f'Trace {trace.get_id()}: '
|
|
f'{n_unclassified}/{len(all_indices)} '
|
|
f'unclassified voltage values in channel {trace.get_id()}',
|
|
status_message=f'{channel}: {n_unclassified} uncl.')
|
|
|
|
return False, voltage_dict, last_val
|
|
|
|
def get_time(self, trace, index):
|
|
""" get UTCDateTime from trace and index"""
|
|
return trace.stats.starttime + trace.stats.delta * index
|
|
|
|
|
|
class Status(object):
|
|
def __init__(self, message=None, detailed_messages=None, count: int = 0, last_occurrence=None, show_count=True):
|
|
if message is None:
|
|
message = '-'
|
|
if detailed_messages is None:
|
|
detailed_messages = []
|
|
self.show_count = show_count
|
|
self.message = message
|
|
self.messages = [message]
|
|
self.detailed_messages = detailed_messages
|
|
self.count = count
|
|
self.last_occurrence = last_occurrence
|
|
self.is_warn = None
|
|
self.is_error = None
|
|
self.is_other = False
|
|
self.is_active = False
|
|
|
|
def set_warn(self):
|
|
self.is_warn = True
|
|
|
|
def set_error(self):
|
|
self.is_warn = False
|
|
self.is_error = True
|
|
|
|
def set_ok(self):
|
|
self.is_warn = False
|
|
self.is_error = False
|
|
|
|
def get_status_str(self):
|
|
message = self.message
|
|
if self.count > 1 and self.show_count:
|
|
message += f' ({self.count})'
|
|
detailed_message = ''
|
|
|
|
for index, dm in enumerate(self.detailed_messages):
|
|
if index > 0:
|
|
detailed_message += ' | '
|
|
detailed_message += dm
|
|
|
|
return message, detailed_message
|
|
|
|
|
|
class StatusOK(Status):
|
|
def __init__(self, message='OK', detailed_messages=None):
|
|
super(StatusOK, self).__init__(message=message, detailed_messages=detailed_messages)
|
|
self.set_ok()
|
|
|
|
|
|
class StatusWarn(Status):
|
|
def __init__(self, message='WARN', count=1, last_occurence=None, detailed_messages=None, show_count=False):
|
|
super(StatusWarn, self).__init__(message=message, count=count, last_occurrence=last_occurence,
|
|
detailed_messages=detailed_messages, show_count=show_count)
|
|
self.set_warn()
|
|
|
|
|
|
class StatusError(Status):
|
|
def __init__(self, message='FAIL', count=1, last_occurence=None, detailed_messages=None, show_count=False):
|
|
super(StatusError, self).__init__(message=message, count=count, last_occurrence=last_occurence,
|
|
detailed_messages=detailed_messages, show_count=show_count)
|
|
self.set_error()
|
|
|
|
|
|
class StatusOther(Status):
|
|
def __init__(self, messages=None, count=1, last_occurence=None, detailed_messages=None):
|
|
super(StatusOther, self).__init__(count=count, last_occurrence=last_occurence,
|
|
detailed_messages=detailed_messages)
|
|
if messages is None:
|
|
messages = []
|
|
self.messages = messages
|
|
self.is_other = True
|
|
|
|
def get_status_str(self):
|
|
if self.messages == []:
|
|
return '-'
|
|
|
|
message = ''
|
|
for index, mes in enumerate(self.messages):
|
|
if index > 0:
|
|
message += ' | '
|
|
message += mes
|
|
|
|
detailed_message = ''
|
|
for index, dm in enumerate(self.detailed_messages):
|
|
if index > 0:
|
|
detailed_message += ' | '
|
|
detailed_message += dm
|
|
|
|
return message, detailed_message
|
|
|
|
|
|
if __name__ == '__main__':
|
|
parser = argparse.ArgumentParser(description='Call survBot')
|
|
parser.add_argument('-html', dest='html_path', default=None, help='filepath for HTML output')
|
|
args = parser.parse_args()
|
|
|
|
survBot = SurveillanceBot(parameter_path='parameters.yaml', outpath_html=args.html_path)
|
|
survBot.start()
|