Thanks
I did as you writed.
Seasons skin does the reading like this now but with many extra numbers of
0.
Like i writed in first post i orginally use Belchertown skins and use
seasons to fix whats reading and how to code!
Connectivity
WiFi Signal
good(56,000000)
Outdoor Module Signal
high(66,000000)
Anemometer Signal
high(61,000000)
Rain Gauge Signal
*high(61,000000)*
Battery Status
Anemometer Battery
full(95,000000)
Rain Gauge Battery
max(100,000000)
Outdoor Module Battery
full(93,000000)
What i read in netatmo.py file i saw that battery_vp is for old firmware
and used for the older Wveiw.py
In the Netatmo.py file it is writed like this now.
class NetatmoDriver(weewx.drivers.AbstractDevice):
DEFAULT_PORT = 80
DEFAULT_HOST = ""
# map from netatmo names to database schema names
# apparently battery_vp is in older firmware, whereas battery_percent is
# in newer firmware.
DEFAULT_SENSOR_MAP = {
'pressure':
'*.NAMain.AbsolutePressure',
'inTemp': '*.NAMain.Temperature',
'inHumidity': '*.NAMain.Humidity',
'co2': '*.NAMain.CO2',
'noise': '*.NAMain.Noise',
'wifi_status': '*.NAMain.wifi_status',
'outTemp': '*.NAModule1.Temperature',
'outHumidity': '*.NAModule1.Humidity',
'out_rf_status': '*.NAModule1.rf_status',
'out_battery_vp': '*.NAModule1.battery_vp', *(**Older
firmware)*
'outTempBatteryStatus': '*.NAModule1.battery_percent',
'windSpeed': '*.NAModule2.WindStrength',
'windDir': '*.NAModule2.WindAngle',
'windGust': '*.NAModule2.GustStrength',
'windGustDir': '*.NAModule2.GustAngle',
'wind_rf_status': '*.NAModule2.rf_status',
'wind_battery_vp': '*.NAModule2.battery_vp', *(**Older
firmware)*
'windBatteryStatus': '*.NAModule2.battery_percent',
'rain': '*.NAModule3.Rain',
'rain_total':
'*.NAModule3.sum_rain_24',
'rain_rf_status': '*.NAModule3.rf_status',
'rain_battery_vp': '*.NAModule3.battery_vp',
*(**Older
firmware)*
'rainBatteryStatus': '*.NAModule3.battery_percent'}
I also send my REC / LOOP
REC: 2021-01-15 12:50:00 CET (1610711400) altimeter: 1024.4038696830132,
appTemp: -7.884807942435174, barometer: 1024.4032036270912, batteryStatus1:
5872.0, batteryStatus2: 5898.0, batteryStatus3: 6036.0, cloudbase:
551.6903180909593, co2: 700.0, dateTime: 1610711400, dewpoint:
-9.143009058869266, ET: None, heatindex: -4.7, humidex: -4.7, inDewpoint:
9.238783201935856, inHumidity: 38.0, inTemp: 24.5, interval: 5.0,
maxSolarRad: None, noise: 43.0, outHumidity: 71.0, outTemp: -4.7,
outTempBatteryStatus: 93.0, pressure: 1023.1, rain: 0.0, rainBatteryStatus:
100.0, rainRate: 0.0, rain_total: 0.0, signal1: 57.0, signal2: 67.0,
signal3: 62.0, signal4: 62.0, usUnits: 16, windBatteryStatus: 95.0,
windchill: -4.7, windDir: 210.0, windGust: 2, windGustDir: 210, windrun:
0.08333333333333333, windSpeed: 1.0
LOOP: 2021-01-15 12:59:12 CET (1610711952) altimeter: 1024.4038696830132,
appTemp: -7.777147909039572, barometer: 1024.4027180441597, batteryStatus1:
5872, batteryStatus2: 5900, batteryStatus3: 6036, cloudbase:
552.1509511394135, co2: 703, dateTime: 1610711952, dewpoint:
-9.046787226465668, heatindex: -4.6000000000000005, humidex: -4.6,
inDewpoint: 9.238783201935856, inHumidity: 38, inTemp: 24.5, maxSolarRad:
None, noise: 43, outHumidity: 71, outTemp: -4.6, outTempBatteryStatus: 93,
pressure: 1023.1, rain: 0.0, rainBatteryStatus: 100, rainRate: 0.0,
rain_total: 0.0, signal1: 56, signal2: 66, signal3: 61, signal4: 61,
usUnits: 16, windBatteryStatus: 95, windchill: -4.6000000000000005,
windDir: 211, windGust: 3, windGustDir: 220, windSpeed: 1
I see i have two kind of battery status
batteryStatus1: 5872.0
batteryStatus2: 5898.0
batteryStatus3: 6036.0
outTempBatteryStatus: 93.0
windBatteryStatus: 95.0
rainBatteryStatus: 100.0
*Here is my debug log (I deleted personal id and passwords)*
System info
Platform: Linux-5.4.83-v7l+-armv7l-with-debian-10.7
Python Version: 3.7.3
Load Information
1 minute load average: 0.30
5 minute load average: 0.60
15 minute load average: 0.77
General Weewx info
Weewx version 4.3.0 detected.
Station info
Station type: netatmo
Driver: user.netatmo
Driver info
[netatmo]
# This section is for the netatmo station.
# The mode specifies how driver should obtain data. The 'cloud' mode
will
# retrieve data from the netatmo.com servers. The 'sniff' mode will
parse
# packets from the netatmo station on the local network.
mode = cloud
# The cloud mode requires credentials:
username = [email protected]
password = password
client_id = id
client_secret = secret
# The driver itself
driver = user.netatmo
[[sensor_map]]
pressure = *.NAMain.AbsolutePressure
inTemp = *.NAMain.Temperature
inHumidity = *.NAMain.Humidity
co2 = *.NAMain.CO2
noise = *.NAMain.Noise
outTemp = *.NAModule1.Temperature
outHumidity = *.NAModule1.Humidity
windSpeed = *.NAModule2.WindStrength
windDir = *.NAModule2.WindAngle
windGust = *.NAModule2.GustStrength
windGustDir = *.NAModule2.GustAngle
rain = *.NAModule3.Rain
rain_total = *.NAModule3.sum_rain_24
wifi_status = ""
# map wifi status to field signal1
signal1 = *.NAMain.wifi_status
out_rf_status = ""
# map out rf status status to field signal2
signal2 = *.NAModule1.rf_status
wind_rf_status = ""
# map wind rf status to field signal3
signal3 = *.NAModule2.rf_status
rain_rf_status = ""
# map rain rf status to field signal4
signal4 = *.NAModule3.rf_status
out_battery_vp = ""
# map out battery vp to field batteryStatus1
batteryStatus1 = *.NAModule1.battery_vp
wind_battery_vp = ""
# map wind battery vp to field batteryStatus2
batteryStatus2 = *.NAModule2.battery_vp
rain_battery_vp = ""
# map rain battery vp to field batteryStatus3
batteryStatus3 = *.NAModule3.battery_vp
Currently installed extensions
Extension Name Version Description
Belchertown 1.2 A clean modern skin with real time streaming
updates and interactive charts. Modeled after BelchertownWeather.com
netatmo 0.14 Driver for netatmo weather stations.
mqtt 0.23 Upload weather data to MQTT server.
Archive info
Database name: weewx.sdb
Table name: archive
Version 3.0
Unit system: 16 (METRIC)
First good timestamp: 2021-01-10 09:55:00 CET (1610268900)
Last good timestamp: 2021-01-15 13:05:00 CET (1610712300)
Number of records: 1357
weewx (weewx.conf) is set to use an archive interval of 300 seconds.
The station hardware was not interrogated in determining archive interval.
Databases configured in weewx.conf
Database name: weewx.sdb
Database driver: weedb.sqlite
Database name: weewx
Database driver: weedb.mysql
Database host: localhost
Parsed and obfuscated weewx.conf
# WEEWX CONFIGURATION FILE
#
# Copyright (c) 2009-2021 Tom Keffer <>
# See the file LICENSE.txt for your rights.
##############################################################################
# This section is for general configuration information.
# Set to 1 for extra debug info, otherwise comment it out or set to zero
debug = 1
# Root directory of the weewx data file hierarchy for this station
WEEWX_ROOT = /
# Whether to log successful operations
log_success = True
# Whether to log unsuccessful operations
log_failure = True
# How long to wait before timing out a socket (FTP, HTTP) connection
socket_timeout = 20
# Do not modify this. It is used when installing and updating weewx.
version = 4.3.0
##############################################################################
# This section is for information about the station.
[Station]
# Description of the station location
location = Kristianstad - Sweden
# Latitude in decimal degrees. Negative for southern hemisphere
latitude = 56.033
# Longitude in decimal degrees. Negative for western hemisphere.
longitude = 14.1547
# Altitude of the station, with unit it is in. This is downloaded from
# from the station if the hardware supports it.
altitude = 10, meter
# Set to type of station hardware. There must be a corresponding stanza
# in this file with a 'driver' parameter indicating the driver to be
used.
station_type = netatmo
# If you have a website, you may specify an URL
station_url = XXX obfuscated by wee_debug XXX
# The start of the rain year (1=January; 10=October, etc.). This is
# downloaded from the station if the hardware supports it.
rain_year_start = 1
# Start of week (0=Monday, 6=Sunday)
week_start = 0
##############################################################################
[netatmo]
# This section is for the netatmo station.
# The mode specifies how driver should obtain data. The 'cloud' mode
will
# retrieve data from the netatmo.com servers. The 'sniff' mode will
parse
# packets from the netatmo station on the local network.
mode = cloud
# The cloud mode requires credentials:
username = XXX obfuscated by wee_debug XXX
password = XXX obfuscated by wee_debug XXX
client_id = id
client_secret = secret
# The driver itself
driver = user.netatmo
[[sensor_map]]
pressure = *.NAMain.AbsolutePressure
inTemp = *.NAMain.Temperature
inHumidity = *.NAMain.Humidity
co2 = *.NAMain.CO2
noise = *.NAMain.Noise
outTemp = *.NAModule1.Temperature
outHumidity = *.NAModule1.Humidity
windSpeed = *.NAModule2.WindStrength
windDir = *.NAModule2.WindAngle
windGust = *.NAModule2.GustStrength
windGustDir = *.NAModule2.GustAngle
rain = *.NAModule3.Rain
rain_total = *.NAModule3.sum_rain_24
wifi_status = ""
# map wifi status to field signal1
signal1 = *.NAMain.wifi_status
out_rf_status = ""
# map out rf status status to field signal2
signal2 = *.NAModule1.rf_status
wind_rf_status = ""
# map wind rf status to field signal3
signal3 = *.NAModule2.rf_status
rain_rf_status = ""
# map rain rf status to field signal4
signal4 = *.NAModule3.rf_status
out_battery_vp = ""
# map out battery vp to field batteryStatus1
batteryStatus1 = *.NAModule1.battery_vp
wind_battery_vp = ""
# map wind battery vp to field batteryStatus2
batteryStatus2 = *.NAModule2.battery_vp
rain_battery_vp = ""
# map rain battery vp to field batteryStatus3
batteryStatus3 = *.NAModule3.battery_vp
# Smart anemometer battery status
# Description
# 6000 = max
# 5590 = full
# 5180 = high
# 4770 = medium
# 4360 = low
# <4360 = very low
# Outdoor Module and RainGauge battery status
# Description
# 6000 = max
# 5500 = full
# 5000 = high
# 4500 = medium
# 4000 = low
# <4000 = very low
# Wifi status
# Signal quality
# 86 = Bad
# 71 = Average
# 56 = Good
##############################################################################
[Simulator]
# This section is for the weewx weather station simulator
# The time (in seconds) between LOOP packets.
loop_interval = 2.5
# The simulator mode can be either 'simulator' or 'generator'.
# Real-time simulator. Sleep between each LOOP packet.
mode = simulator
# Generator. Emit LOOP packets as fast as possible (useful for
testing).
#mode = generator
# The start time. Format is YYYY-mm-ddTHH:MM. If not specified, the
default
# is to use the present time.
#start = 2011-01-01T00:00
# The driver to use:
driver = weewx.drivers.simulator
##############################################################################
# This section is for uploading data to Internet sites
[StdRESTful]
[[StationRegistry]]
# To register this weather station with weewx, set this to true
register_this_station = true
[[AWEKAS]]
# This section is for configuring posts to AWEKAS.
# If you wish to do this, set the option 'enable' to true,
# and specify a username and password.
# To guard against parsing errors, put the password in quotes.
enable = false
username = XXX obfuscated by wee_debug XXX
password = XXX obfuscated by wee_debug XXX
[[CWOP]]
# This section is for configuring posts to CWOP.
# If you wish to do this, set the option 'enable' to true,
# and specify the station ID (e.g., CW1234).
enable = false
station = XXX obfuscated by wee_debug XXX
# If this is an APRS (radio amateur) station, uncomment
# the following and replace with a passcode (e.g., 12345).
#passcode = replace_me (APRS stations only)
[[PWSweather]]
# This section is for configuring posts to PWSweather.com.
# If you wish to do this, set the option 'enable' to true,
# and specify a station and password.
# To guard against parsing errors, put the password in quotes.
enable = true
station = XXX obfuscated by wee_debug XXX
password = XXX obfuscated by wee_debug XXX
[[WOW]]
# This section is for configuring posts to WOW.
# If you wish to do this, set the option 'enable' to true,
# and specify a station and password.
# To guard against parsing errors, put the password in quotes.
enable = false
station = XXX obfuscated by wee_debug XXX
password = XXX obfuscated by wee_debug XXX
[[Wunderground]]
# This section is for configuring posts to the Weather Underground.
# If you wish to do this, set the option 'enable' to true,
# and specify a station (e.g., 'KORHOODR3') and password.
# To guard against parsing errors, put the password in quotes.
enable = true
station = XXX obfuscated by wee_debug XXX
password = XXX obfuscated by wee_debug XXX
# If you plan on using wunderfixer, set the following
# to your API key:
api_key = XXX obfuscated by wee_debug XXX
# Set the following to True to have weewx use the WU "Rapidfire"
# protocol. Not all hardware can support it. See the User's Guide.
rapidfire = False
[[MQTT]]
server_url = XXX obfuscated by wee_debug XXX
topic = weather
unit_system = METRIC
binding = archive, loop
aggregation = aggregate
##############################################################################
# This section specifies what reports, using which skins, to generate.
[StdReport]
# Where the skins reside, relative to WEEWX_ROOT
SKIN_ROOT = /etc/weewx/skins
# Where the generated reports should go, relative to WEEWX_ROOT
HTML_ROOT = /var/www/html/weewx
# The database binding indicates which data should be used in reports.
data_binding = wx_binding
# Whether to log a successful operation
log_success = True
# Whether to log an unsuccessful operation
log_failure = True
# Each of the following subsections defines a report that will be run.
# See the customizing guide to change the units, plot types and line
# colors, modify the fonts, display additional sensor data, and other
# customizations. Many of those changes can be made here by overriding
# parameters, or by modifying templates within the skin itself.
[[SeasonsReport]]
# The SeasonsReport uses the 'Seasons' skin, which contains the
# images, templates and plots for the report.
skin = Seasons
enable = true
[[SmartphoneReport]]
# The SmartphoneReport uses the 'Smartphone' skin, and the images
and
# files are placed in a dedicated subdirectory.
skin = Smartphone
enable = false
HTML_ROOT = /var/www/html/weewx/smartphone
[[MobileReport]]
# The MobileReport uses the 'Mobile' skin, and the images and files
# are placed in a dedicated subdirectory.
skin = Mobile
enable = false
HTML_ROOT = /var/www/html/weewx/mobile
[[StandardReport]]
# This is the old "Standard" skin. By default, it is not enabled.
skin = Standard
enable = false
[[Belchertown]]
skin = Belchertown
HTML_ROOT = /var/www/html
[[FTP]]
# FTP'ing the results to a webserver is treated as just another
report,
# albeit one with an unusual report generator!
skin = Ftp
# If you wish to use FTP, set "enable" to "true", then
# fill out the next four lines.
# Use quotes around passwords to guard against parsing errors.
enable = false
user = XXX obfuscated by wee_debug XXX
password = XXX obfuscated by wee_debug XXX
server = replace_me # The ftp server name, e.g, www.myserver.org
path = replace_me # The destination directory, e.g., /weather
# Set to True for an FTP over TLS (FTPS) connection. Not all servers
# support this.
secure_ftp = False
# To upload files from something other than what HTML_ROOT is set
# to above, specify a different HTML_ROOT here.
#HTML_ROOT = /var/www/html/weewx
# Most FTP servers use port 21
port = 21
# Set to 1 to use passive mode, zero for active mode
passive = 1
[[RSYNC]]
# rsync'ing to a webserver is treated as just another report
skin = Rsync
# If you wish to use rsync, you must configure passwordless ssh
using
# public/private key authentication from the user account that weewx
# runs to the user account on the remote machine where the files
# will be copied.
#
# If you wish to use rsync, set "enable" to "true", then
# fill out server, user, and path.
# The server should appear in your .ssh/config file.
# The user is the username used in the identity file.
# The path is the destination directory, such as
/var/www/html/weather.
# Be sure that the user has write permissions on the destination!
enable = false
server = replace_me
user = XXX obfuscated by wee_debug XXX
path = replace_me
# To upload files from something other than what HTML_ROOT is set
# to above, specify a different HTML_ROOT here.
#HTML_ROOT = /var/www/html/weewx
# Rsync can be configured to remove files from the remote server if
# they don't exist under HTML_ROOT locally. USE WITH CAUTION: if you
# make a mistake in the remote path, you could could unintentionally
# cause unrelated files to be deleted. Set to 1 to enable remote
file
# deletion, zero to allow files to accumulate remotely.
delete = 0
####
# Various options for customizing your reports.
[[Defaults]]
[[[Units]]]
# The following section sets what unit to use for each unit
group.
# NB: The unit is always in the singular. I.e., 'mile_per_hour',
# NOT 'miles_per_hour'
[[[[Groups]]]]
group_pressure = mbar
group_altitude = meter
group_degree_day = degree_C_day
group_distance = km
group_rain = mm
group_rainrate = mm_per_hour
group_speed = meter_per_second
group_speed2 = meter_per_second2
group_temperature = degree_C
group_concentration = microgram_per_meter_cubed
group_db = dB
group_fraction = ppm
group_interval = minute
group_percent = percent
group_radiation = watt_per_meter_squared
group_time = unix_epoch
group_volt = volt
# The following section sets the formatting for each type of
unit.
[[[[StringFormats]]]]
centibar = %.0f
cm = %.2f
cm_per_hour = %.2f
degree_C = %.1f
degree_F = %.1f
degree_compass = %.0f
foot = %.0f
hPa = %.1f
hour = %.1f
inHg = %.3f
inch = %.2f
inch_per_hour = %.2f
km = %.1f
km_per_hour = %.0f
km_per_hour2 = %.1f
knot = %.0f
knot2 = %.1f
kPa = %.2f
mbar = %.1f
meter = %.0f
meter_per_second = %.1f
meter_per_second2 = %.1f
mile = %.1f
mile_per_hour = %.0f
mile_per_hour2 = %.1f
mm = %.1f
mmHg = %.1f
mm_per_hour = %.1f
percent = %.0f
second = %.0f
uv_index = %.1f
volt = %.1f
watt_per_meter_squared = %.0f
NONE = " N/A"
# The following section overrides the label used for each type
of unit
[[[[Labels]]]]
meter = " meter", " meters" # You may prefer "metre".
day = " day", " days"
hour = " hour", " hours"
minute = " minute", " minutes"
second = " second", " seconds"
NONE = ""
# The following section sets the format for each time scale.
# The values below will work in every locale, but they may not
look
# particularly attractive.
[[[[TimeFormats]]]]
day = %H:%M
week = %H:%M on %A
month = %d-%b-%Y %H:%M
year = %d-%b-%Y %H:%M
rainyear = %d-%b-%Y %H:%M
current = %d-%b-%Y %H:%M
ephem_day = %H:%M
ephem_year = %d-%b-%Y %H:%M
[[[[Ordinates]]]]
# Ordinal directions. The last one is for no wind direction
directions = N, NNE, NE, ENE, E, ESE, SE, SSE, S, SSW, SW,
WSW, W, WNW, NW, NNW, N/A
# The following section sets the base temperatures used for the
# calculation of heating, cooling, and growing degree-days.
[[[[DegreeDays]]]]
# Base temperature for heating days, with unit:
heating_base = 65, degree_F
# Base temperature for cooling days, with unit:
cooling_base = 65, degree_F
# Base temperature for growing days, with unit:
growing_base = 50, degree_F
# A trend takes a difference across a time period. The following
# section sets the time period, and how big an error is allowed
to
# still be counted as the start or end of a period.
[[[[Trend]]]]
time_delta = 10800 # 3 hours
time_grace = 300 # 5 minutes
# The labels to be used for each observation type
[[[Labels]]]
# Set to hemisphere abbreviations suitable for your location:
hemispheres = N, S, E, W
# Formats to be used for latitude whole degrees, longitude whole
# degrees, and minutes:
latlon_formats = %02d, %03d, %05.2f
# Generic labels, keyed by an observation type.
[[[[Generic]]]]
pressure = Pressure
barometer = Barometer
dewpoint = Dew Point
humidex = Humidex
heatindex = Heat Index
inHumidity = In Humidity
inTemp = In Temp
noise = dB
co2 = CO2
o3 = AIQ
outHumidity = Humidity
outTemp = Out Temperature
maxSolarRad = Max Solar
rain = Rain
rainRate = Rain Rate
windDir = Wind Direction
windGust = Gust Speed
windGustDir = Gust Direction
windSpeed = Wind Speed
windchill = Wind Chill
windgustvec = Gust Vector
windvec = Wind Vector
# Sensor status indicators
txBatteryStatus = Transmitter
windBatteryStatus = Anemometer Battery
rainBatteryStatus = Rain Gauge Battery
outTempBatteryStatus = Outdoor Module Battery
inTempBatteryStatus = Inside Temperature
consBatteryVoltage = Console
heatingVoltage = Heating
supplyVoltage = Supply
referenceVoltage = Reference
signal1 = WiFi Signal
signal2 = Outdoor Module Signal
signal3 = Anemometer Signal
signal4 = Rain Gauge Signal
[[[Almanac]]]
# The labels to be used for the phases of the moon:
moon_phases = New, Waxing crescent, First quarter, Waxing
gibbous, Full, Waning gibbous, Last quarter, Waning crescent
##############################################################################
# This service acts as a filter, converting the unit system coming from
# the hardware to a unit system in the database.
[StdConvert]
# The target_unit affects only the unit system in the database. Once
# chosen it cannot be changed without converting the entire database.
# Modification of target_unit after starting weewx will result in
# corrupt data - the database will contain a mix of US and METRIC data.
#
# The value of target_unit does not affect the unit system for
# reporting - reports can display US, Metric, or any combination of
units.
#
# In most cases, target_unit should be left as the default: US
#
# In particular, those migrating from a standard wview installation
# should use US since that is what the wview database contains.
# DO NOT MODIFY THIS VALUE UNLESS YOU KNOW WHAT YOU ARE DOING!
target_unit = METRIC # Options are 'US', 'METRICWX', or 'METRIC'
##############################################################################
# This section can adjust data using calibration expressions.
[StdCalibrate]
[[Corrections]]
# For each type, an arbitrary calibration expression can be given.
# It should be in the units defined in the StdConvert section.
# Example:
foo = foo - 1.5
##############################################################################
# This section is for quality control checks. If units are not specified,
# values must be in the units defined in the StdConvert section.
[StdQC]
[[MinMax]]
pressure = 260, 1160, mbar
outTemp = -40, 65, degree_C
inTemp = 0, 50, degree_C
outHumidity = 0, 100
inHumidity = 0, 100
windSpeed = 0, 50, meter_per_second
rain = 0, 150, mm
co2 = 0, 5000, ppm
noise = 35, 110, dB
##############################################################################
# This section controls the origin of derived values.
[StdWXCalculate]
[[Calculations]]
# How to calculate derived quantities. Possible values are:
# hardware - use the value provided by hardware
# software - use the value calculated by weewx
# prefer_hardware - use value provide by hardware if available,
# otherwise use value calculated by weewx
pressure = prefer_hardware
altimeter = prefer_hardware
appTemp = prefer_hardware
barometer = prefer_hardware
cloudbase = prefer_hardware
dewpoint = prefer_hardware
ET = prefer_hardware
heatindex = prefer_hardware
humidex = prefer_hardware
inDewpoint = prefer_hardware
maxSolarRad = prefer_hardware
rainRate = prefer_hardware
windchill = prefer_hardware
windrun = prefer_hardware
##############################################################################
# For hardware that supports it, this section controls how often the
# onboard clock gets updated.
[StdTimeSynch]
# How often to check the weather station clock for drift (in seconds)
clock_check = 14400
# How much it can drift before we will correct it (in seconds)
max_drift = 5
##############################################################################
# This section is for configuring the archive service.
[StdArchive]
# If the station hardware supports data logging then the archive
interval
# will be downloaded from the station. Otherwise, specify it (in
seconds).
archive_interval = 300
# If possible, new archive records are downloaded from the station
# hardware. If the hardware does not support this, then new archive
# records will be generated in software.
# Set the following to "software" to force software record generation.
record_generation = hardware
# Whether to include LOOP data in hi/low statistics
loop_hilo = True
# The data binding used to save archive records
data_binding = wx_binding
##############################################################################
# This section binds a data store to a database.
[DataBindings]
[[wx_binding]]
# The database must match one of the sections in [Databases].
# This is likely to be the only option you would want to change.
database = archive_sqlite
# The name of the table within the database
table_name = archive
# The manager handles aggregation of data for historical summaries
manager = weewx.manager.DaySummaryManager
# The schema defines the structure of the database.
# It is *only* used when the database is created.
schema = schemas.wview_extended.schema
##############################################################################
# This section defines various databases.
[Databases]
# A SQLite database is simply a single file
[[archive_sqlite]]
database_name = weewx.sdb
database_type = SQLite
# MySQL
[[archive_mysql]]
database_name = weewx
database_type = MySQL
##############################################################################
# This section defines defaults for the different types of databases.
[DatabaseTypes]
# Defaults for SQLite databases
[[SQLite]]
driver = weedb.sqlite
# Directory in which the database files are located
SQLITE_ROOT = /var/lib/weewx
# Defaults for MySQL databases
[[MySQL]]
driver = weedb.mysql
# The host where the database is located
host = localhost
# The user name for logging in to the host
user = XXX obfuscated by wee_debug XXX
# The password for the user name (quotes guard against parsing
errors)
password = XXX obfuscated by wee_debug XXX
##############################################################################
# This section configures the internal weewx engine.
[Engine]
# The following section specifies which services should be run and in
what order.
[[Services]]
prep_services = weewx.engine.StdTimeSynch
data_services = ,
process_services = weewx.engine.StdConvert,
weewx.engine.StdCalibrate, weewx.engine.StdQC,
weewx.wxservices.StdWXCalculate
xtype_services = weewx.wxxtypes.StdWXXTypes,
weewx.wxxtypes.StdPressureCooker, weewx.wxxtypes.StdRainRater,
weewx.wxxtypes.StdDelta
archive_services = weewx.engine.StdArchive
restful_services = weewx.restx.StdStationRegistry,
weewx.restx.StdWunderground, weewx.restx.StdPWSweather,
weewx.restx.StdCWOP, weewx.restx.StdWOW, weewx.restx.StdAWEKAS,
user.mqtt.MQTT
report_services = weewx.engine.StdPrint, weewx.engine.StdReport
wee_debug report successfully generated
torsdag 14 januari 2021 kl. 14:54:01 UTC+1 skrev gjr80:
> Hi,
>
> If I read your post correctly the problem you have is that you can't
> display wifi status, various sensor rf status and various sensors battery
> status on your Seasons page? Your netatmo driver is picking up the data and
> passing it to WeeWX, there's just a few things you need to do to make the
> data available to the Seasons skin. First up you need to get WeeWX to save
> the sensor status data to database. Then you need to modify the Seasons
> skin to display the sensor status fields concerned.
>
> According to the log extract everything is running without error and we
> can see the fields the netatmo driver is emitting in loop packets from this
> line:
>
> Jan 12 11:37:57 Raspi /weewxd: netatmo: MainThread: packet: {'dateTime':
> 1610447878 , 'usUnits': 16, 'pressure': 994.5, 'inTemp': 23.1,
> 'inHumidity': 40, 'co2': 672, ' noise': 44, 'wifi_status': 57, 'outTemp':
> 3, 'outHumidity': 75, 'out_rf_status': 60 , 'out_battery_vp': 5874,
> 'outTempBatteryStatus':
> 93, 'windSpeed': 2, 'windDir': 23 7, 'windGust': 5, 'windGustDir': 237,
> 'wind_rf_status':
> 86, 'wind_battery_vp': 5907 , 'windBatteryStatus': 95, 'rain': 0.0,
> 'rain_total': 0.06, 'rain_rf_status': 63, ' rain_battery_vp': 6046,
> 'rainBatteryStatus':
> 100}
>
> WeeWX will accumulate the data in these loop packets and every archive
> period WeeWX will emit an archive record consisting of the accumulated loop
> packet fields. Try running WeeWX directly,
> <http://weewx.com/docs/usersguide.htm#Running_directly> you will see the
> loop packets (lines starting with LOOP:) and archive records (lines
> starting with REC:) on your console. The reason the archive records are
> important is that it is those fields and their data that are saved to
> database. If a field in an archive record exists in your database schema
> then the data from that field is saved to database, if the field does not
> exist in the database schema then the data is not saved to database. The
> legacy wview schema does not have very many sensor status fields, the
> wview_extended schema has significantly more fields which covers a few of
> your netatmo fields (outTempBatteryStatus, windBatteryStatus and
> rainBatterystatus) but a number are not included (wifi_status,
> out_rf_status, out_battery_vp, wind_rf_status, wind_battery_vp,
> rain_rf_status and rain_battery_vp). We have a couple of choices here, we
> can modify your database schema and add the extra fields or we can
> repurpose some of the unused fields in your database. If you use the
> wview_extended schema it comes with a number of generic battery and
> signal level fields so I would suggest we use those rather than modify your
> schema.
>
> To repurpose the fields:
>
> 1. You need to be using the wview_extended schema, you indicated you have
> tried that. If you are still using that schema then that is fine, if not
> change back to it.
>
> 2. We need to get the data from the xxx_status and xxx_battery_vp fields
> into the fields were are going to use in the wview_extended schema, there
> are a number of ways we can do this, I suggest we use the netatmo driver
> sensor map to do this in the driver. We do this using a [[sensor_map]]
> stanza in the netatmo driver config stanza in weewx.conf. Edit
> /etc/weewx/weewx.conf, locate the [netatmo] stanza and add the
> [[sensor_map]] stanza as follows:
>
> [netatmo]
> ....
> [[sensor_map]]
> wifi_status = ''
> # map wifi status to field signal1
> signal1 = *.NAMain.wifi_status
> out_rf_status =
> # map out rf status status to field signal2
> signal2 = *.NAModule1.rf_status
> wind_rf_status =
> # map wind rf status to field signal3
> signal3 = *.NAModule2.rf_status
> rain_rf_status =
> # map rain rf status to field signal4
> signal4 = *.NAModule4.rf_status
> out_battery_vp =
> # map out battery vp to field batteryStatus1
> batteryStatus1 = *.NAModule1.battery_vp
> wind_battery_vp =
> # map wind battery vp to field batteryStatus2
> batteryStatus2 = *.NAModule2.battery_vp
> rain_battery_vp =
> # map rain battery vp to field batteryStatus3
> batteryStatus3 = *.NAModule3.battery_vp
>
> 3. Save weewx.conf and run WeeWX directly again. You should now see loop
> packets and archive records that contain fields signal1, signal2, signal3.
> signal4, batteryStatus1, batteryStatus2 and batteryStatus3. These fields
> should have the wifi status, rf status and battery vp status data you saw
> previously. If not or nothing happens check the WeeWX log for errors and
> post a log extract back here.
>
> You now have all of the status fields being saved to database, now we need
> to configure the Seasons skin to display them. There are a couple of things
> to do here; first we need to make some changes to the file
> /etc/weewx/skins/Seasons/sensors.inc to include the new fields we are
> using. Secondly, we need to add a few entries to the Seasons skin config
> file /etc/weewx/skins/Seasons/skin.conf. The changes to sensors.inc are
> quite substantial so I have attached a modified sensors.inc (actually
> named sensors.txt due to Google Groups limitations). To install rename
> your existing sensors.inc to say sensors_orig.inc and download the
> attached sensors.txt in its place and rename to sensors.inc. To make the
> changes to skin.conf edit /etc/weewx/skins/Seasons/skin.conf and locate
> the [Labels] stanza, make the necessary changes/additions so that it
> looks like the following (changes/additions highlighted in yellow):
>
> [Labels]
>
> # Override some labels. No need to identify these as a "Battery"
> # or "Voltage", because that is included in the template.
> [[Generic]]
> txBatteryStatus = Transmitter
> windBatteryStatus = Anemometer Battery
> rainBatteryStatus = Rain Gauge Battery
> outTempBatteryStatus = Outdoor Module Battery
> inTempBatteryStatus = Inside Temperature
> consBatteryVoltage = Console
> heatingVoltage = Heating
> supplyVoltage = Supply
> referenceVoltage = Reference
> signal1 = WiFi
> signal2 = Outdoor Module Signal
> signal3 = Anemometer Signal
> signal4 = Rain Gauge Signal
>
> # Some specialized labels
> rain_today = Rain Today
> wind = Wind
>
> Save skin.conf and on the next report cycle check your Seasons page,
> hopefully it will have WiFi status, rf status and battery level data in the
> Sensor Status panel. If not, check the WeeWX log for any errors and if
> there are any post them here. I expect there will be a little fine tuning
> needed, but let's see how the above goes first. If your Seasons page is
> publicly accessible a link would be handy.
>
> If you need to revert to the old sensors.inc, just delete sensors.inc and
> rename sensors_orig.inc to sensors.inc.
>
> Gary
>
>
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