openwebrx-clone/config_webrx.py

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# -*- coding: utf-8 -*-
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"""
config_webrx: configuration options for OpenWebRX
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This file is part of OpenWebRX,
an open-source SDR receiver software with a web UI.
Copyright (c) 2013-2015 by Andras Retzler <randras@sdr.hu>
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Copyright (c) 2019-2021 by Jakob Ketterl <dd5jfk@darc.de>
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This program is free software: you can redistribute it and/or modify
it under the terms of the GNU Affero General Public License as
published by the Free Software Foundation, either version 3 of the
License, or (at your option) any later version.
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This program is distributed in the hope that it will be useful,
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but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU Affero General Public License for more details.
You should have received a copy of the GNU Affero General Public License
along with this program. If not, see <http://www.gnu.org/licenses/>.
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++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
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In addition, as a special exception, the copyright holders
state that config_rtl.py and config_webrx.py are not part of the
Corresponding Source defined in GNU AGPL version 3 section 1.
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(It means that you do not have to redistribute config_rtl.py and
config_webrx.py if you make any changes to these two configuration files,
and use them for running your web service with OpenWebRX.)
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"""
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# configuration version. please only modify if you're able to perform the associated migration steps.
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version = 6
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# NOTE: you can find additional information about configuring OpenWebRX in the Wiki:
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# https://github.com/jketterl/openwebrx/wiki/Configuration-guide
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# ==== Server settings ====
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#max_clients = 20
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# ==== Web GUI configuration ====
#receiver_name = "[Callsign]"
#receiver_location = "Budapest, Hungary"
#receiver_asl = 200
#receiver_admin = "example@example.com"
#receiver_gps = {"lat": 47.000000, "lon": 19.000000}
#photo_title = "Panorama of Budapest from Schönherz Zoltán Dormitory"
# photo_desc allows you to put pretty much any HTML you like into the receiver description.
# The lines below should give you some examples of what's possible.
#photo_desc = """
#You can add your own background photo and receiver information.<br />
#Receiver is operated by: <a href="mailto:openwebrx@localhost" target="_blank">Receiver Operator</a><br/>
#Device: Receiver Device<br />
#Antenna: Receiver Antenna<br />
#Website: <a href="http://localhost" target="_blank">http://localhost</a>
#"""
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# ==== Public receiver listings ====
# You can publish your receiver on online receiver directories, like https://www.receiverbook.de
# You will receive a receiver key from the directory that will authenticate you as the operator of this receiver.
# Please note that you not share your receiver keys publicly since anyone that obtains your receiver key can take over
# your public listing.
# Your receiver keys should be placed into this array:
#receiver_keys = []
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# If you list your receiver on multiple sites, you can place all your keys into the array above, or you can append
# keys to the arraylike this:
# receiver_keys += ["my-receiver-key"]
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# If you're not sure, simply copy & paste the code you received from your listing site below this line:
# ==== DSP/RX settings ====
#fft_fps = 9
#fft_size = 4096 # Should be power of 2
#fft_voverlap_factor = (
# 0.3 # If fft_voverlap_factor is above 0, multiple FFTs will be used for creating a line on the diagram.
#)
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#audio_compression = "adpcm" # valid values: "adpcm", "none"
#fft_compression = "adpcm" # valid values: "adpcm", "none"
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# Tau setting for WFM (broadcast FM) deemphasis\
# Quote from wikipedia https://en.wikipedia.org/wiki/FM_broadcasting#Pre-emphasis_and_de-emphasis
# "In most of the world a 50 µs time constant is used. In the Americas and South Korea, 75 µs is used"
# Enable one of the following lines, depending on your location:
# wfm_deemphasis_tau = 75e-6 # for US and South Korea
#wfm_deemphasis_tau = 50e-6 # for the rest of the world
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#digimodes_enable = True # Decoding digimodes come with higher CPU usage.
#digimodes_fft_size = 2048
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# determines the quality, and thus the cpu usage, for the ambe codec used by digital voice modes
# if you're running on a Raspi (up to 3B+) you'll want to leave this on 1
#digital_voice_unvoiced_quality = 1
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# enables lookup of DMR ids using the radioid api
#digital_voice_dmr_id_lookup = True
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"""
Note: if you experience audio underruns while CPU usage is 100%, you can:
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- decrease `samp_rate`,
- set `fft_voverlap_factor` to 0,
- decrease `fft_fps` and `fft_size`,
- limit the number of users by decreasing `max_clients`.
"""
# ==== I/Q sources ====
# (Uncomment the appropriate by removing # characters at the beginning of the corresponding lines.)
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###############################################################################
# Is my SDR hardware supported? #
# Check here: https://github.com/jketterl/openwebrx/wiki/Supported-Hardware #
###############################################################################
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# Currently supported types of sdr receivers:
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# "rtl_sdr", "rtl_sdr_soapy", "sdrplay", "hackrf", "airspy", "airspyhf", "fifi_sdr",
# "perseussdr", "lime_sdr", "pluto_sdr", "soapy_remote", "hpsdr", "red_pitaya", "uhd",
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# "radioberry", "fcdpp", "rtl_tcp", "sddc", "runds"
# For more details on specific types, please checkout the wiki:
# https://github.com/jketterl/openwebrx/wiki/Supported-Hardware#sdr-devices
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sdrs = {
"rtlsdr": {
"name": "RTL-SDR USB Stick",
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"type": "rtl_sdr",
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"ppm": 0,
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# you can change this if you use an upconverter. formula is:
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# center_freq + lfo_offset = actual frequency on the sdr
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# "lfo_offset": 0,
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"profiles": {
"70cm": {
"name": "70cm Relais",
"center_freq": 438800000,
"rf_gain": 29,
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"samp_rate": 2400000,
"start_freq": 439275000,
"start_mod": "nfm",
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},
"2m": {
"name": "2m komplett",
"center_freq": 145000000,
"rf_gain": 29,
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"samp_rate": 2048000,
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"start_freq": 145725000,
"start_mod": "nfm",
},
},
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},
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"airspy": {
"name": "Airspy HF+",
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"type": "airspyhf",
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"ppm": 0,
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"rf_gain": "auto",
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"profiles": {
"20m": {
"name": "20m",
"center_freq": 14150000,
"samp_rate": 384000,
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"start_freq": 14070000,
"start_mod": "usb",
},
"30m": {
"name": "30m",
"center_freq": 10125000,
"samp_rate": 192000,
"start_freq": 10142000,
"start_mod": "usb",
},
"40m": {
"name": "40m",
"center_freq": 7100000,
"samp_rate": 256000,
"start_freq": 7070000,
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"start_mod": "lsb",
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},
"80m": {
"name": "80m",
"center_freq": 3650000,
"samp_rate": 384000,
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"start_freq": 3570000,
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"start_mod": "lsb",
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},
"49m": {
"name": "49m Broadcast",
"center_freq": 6050000,
"samp_rate": 384000,
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"start_freq": 6070000,
"start_mod": "am",
},
},
},
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"sdrplay": {
"name": "SDRPlay RSP2",
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"type": "sdrplay",
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"ppm": 0,
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"antenna": "Antenna A",
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"profiles": {
"20m": {
"name": "20m",
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"center_freq": 14150000,
"rf_gain": 0,
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"samp_rate": 500000,
"start_freq": 14070000,
"start_mod": "usb",
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},
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"30m": {
"name": "30m",
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"center_freq": 10125000,
"rf_gain": 0,
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"samp_rate": 250000,
"start_freq": 10142000,
"start_mod": "usb",
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},
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"40m": {
"name": "40m",
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"center_freq": 7100000,
"rf_gain": 0,
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"samp_rate": 500000,
"start_freq": 7070000,
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"start_mod": "lsb",
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},
"80m": {
"name": "80m",
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"center_freq": 3650000,
"rf_gain": 0,
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"samp_rate": 500000,
"start_freq": 3570000,
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"start_mod": "lsb",
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},
"49m": {
"name": "49m Broadcast",
"center_freq": 6000000,
"rf_gain": 0,
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"samp_rate": 500000,
"start_freq": 6070000,
"start_mod": "am",
},
},
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},
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}
# ==== Color themes ====
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### google turbo colormap (see: https://ai.googleblog.com/2019/08/turbo-improved-rainbow-colormap-for.html)
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#waterfall_scheme = "GoogleTurboWaterfall"
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### original theme by teejez:
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#waterfall_scheme = "TeejeezWaterfall"
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### old theme by HA7ILM:
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#waterfall_scheme = "Ha7ilmWaterfall"
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##For the old colors, you might also want to set [fft_voverlap_factor] to 0.
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### custom waterfall schemes can be configured like this:
#waterfall_scheme = "CustomWaterfall"
#waterfall_colors = [0x0000FF, 0x00FF00, 0xFF0000]
### Waterfall calibration
#waterfall_levels = {"min": -88, "max": -20} # in dB
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waterfall_auto_level_margin = {"min": 3, "max": 10, "min_range": 50}
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# Note: When the auto waterfall level button is clicked, the following happens:
# [waterfall_levels.min] = [current_min_power_level] - [waterfall_auto_level_margin["min"]]
# [waterfall_levels.max] = [current_max_power_level] + [waterfall_auto_level_margin["max"]]
#
# ___|________________________________________|____________________________________|________________________________________|___> signal power
# \_waterfall_auto_level_margin["min"]_/ |__ current_min_power_level | \_waterfall_auto_level_margin["max"]_/
# current_max_power_level __|
# This setting allows you to modify the precision of the frequency displays in OpenWebRX.
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# Set this to exponent of 10 to select the most precise digit in Hz you'd like to see
# examples:
# a value of 2 selects 10^2 = 100Hz tuning precision (default):
#tuning_precision = 2
# a value of 1 selects 10^1 = 10Hz tuning precision:
#tuning_precision = 1
# This setting tells the auto-squelch the offset to add to the current signal level to use as the new squelch level.
# Lowering this setting will give you a more sensitive squelch, but it may also cause unwanted squelch openings when
# using the auto squelch.
#squelch_auto_margin = 10 # in dB
nmux_memory = 50 # in megabytes. This sets the approximate size of the circular buffer used by nmux.
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#google_maps_api_key = ""
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# how long should positions be visible on the map?
# they will start fading out after half of that
# in seconds; default: 2 hours
#map_position_retention_time = 2 * 60 * 60
# decoder queue configuration
# due to the nature of some operating modes (ft8, ft8, jt9, jt65, wspr and js8), the data is recorded for a given amount
# of time (6 seconds up to 2 minutes) and decoded at the end. this can lead to very high peak loads.
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# to mitigate this, the recordings will be queued and processed in sequence.
# the number of workers will limit the total amount of work (one worker will losely occupy one cpu / thread)
#decoding_queue_workers = 2
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# the maximum queue length will cause decodes to be dumped if the workers cannot keep up
# if you are running background services, make sure this number is high enough to accept the task influx during peaks
# i.e. this should be higher than the number of decoding services running at the same time
#decoding_queue_length = 10
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# wsjt decoding depth will allow more results, but will also consume more cpu
#wsjt_decoding_depth = 3
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# can also be set for each mode separately
# jt65 seems to be somewhat prone to erroneous decodes, this setting handles that to some extent
#wsjt_decoding_depths = {"jt65": 1}
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# FST4 can be transmitted in different intervals. This setting determines which intervals will be decoded.
# available values (in seconds): 15, 30, 60, 120, 300, 900, 1800
#fst4_enabled_intervals = [15, 30]
# FST4W can be transmitted in different intervals. This setting determines which intervals will be decoded.
# available values (in seconds): 120, 300, 900, 1800
#fst4w_enabled_intervals = [120, 300]
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# Q65 allows many combinations of intervals and submodes. This setting determines which combinations will be decoded.
# Please use the mode letter followed by the decode interval in seconds to specify the combinations. For example:
#q65_enabled_combinations = ["A30", "E120", "C60"]
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# JS8 comes in different speeds: normal, slow, fast, turbo. This setting controls which ones are enabled.
#js8_enabled_profiles = ["normal", "slow"]
# JS8 decoding depth; higher value will get more results, but will also consume more cpu
#js8_decoding_depth = 3
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# Enable background service for decoding digital data. You can find more information at:
# https://github.com/jketterl/openwebrx/wiki/Background-decoding
#services_enabled = False
#services_decoders = ["ft8", "ft4", "wspr", "packet"]
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# === aprs igate settings ===
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# If you want to share your APRS decodes with the aprs network, configure these settings accordingly.
# Make sure that you have set services_enabled to true and customize services_decoders to your needs.
#aprs_callsign = "N0CALL"
#aprs_igate_enabled = False
#aprs_igate_server = "euro.aprs2.net"
#aprs_igate_password = ""
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# beacon uses the receiver_gps setting, so if you enable this, make sure the location is correct there
#aprs_igate_beacon = False
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# Uncomment the following to customize gateway beacon details reported to the aprs network
# Plese see Dire Wolf's documentation on PBEACON configuration for complete details:
# https://github.com/wb2osz/direwolf/raw/master/doc/User-Guide.pdf
# Symbol in its two-character form as specified by the APRS spec at http://www.aprs.org/symbols/symbols-new.txt
# Default: Receive only IGate (do not send msgs back to RF)
# aprs_igate_symbol = "R&"
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# Custom comment about igate
# Default: OpenWebRX APRS gateway
# aprs_igate_comment = "OpenWebRX APRS gateway"
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# Antenna Height and Gain details
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# Unspecified by default
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# Antenna height above average terrain (HAAT) in meters
# aprs_igate_height = "5"
# Antenna gain in dBi
# aprs_igate_gain = "0"
# Antenna direction (N, NE, E, SE, S, SW, W, NW). Omnidirectional by default
# aprs_igate_dir = "NE"
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# === PSK Reporter settings ===
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# enable this if you want to upload all ft8, ft4 etc spots to pskreporter.info
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# this also uses the receiver_gps setting from above, so make sure it contains a correct locator
#pskreporter_enabled = False
#pskreporter_callsign = "N0CALL"
# optional antenna information, uncomment to enable
#pskreporter_antenna_information = "Dipole"
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# === WSPRNet reporting settings
# enable this if you want to upload WSPR spots to wsprnet.ort
# in addition to these settings also make sure that receiver_gps contains your correct location
#wsprnet_enabled = False
#wsprnet_callsign = "N0CALL"