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49 Commits
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Author SHA1 Message Date
Ian Renton
8b036ddb46 Fix copy/paste error in WOTA support 2025-10-25 10:44:54 +01:00
Ian Renton
3f827c597b Extract spotter information from comments of RBNHole and SOTAMAT posts 2025-10-25 10:34:52 +01:00
Ian Renton
587d3b4cf1 Typo 2025-10-25 10:34:19 +01:00
Ian Renton
6eb1bd5ef1 Stop cleaning up comments, Spothole should be agnostic to that kind of thing. 2025-10-25 10:16:15 +01:00
Ian Renton
0ead59a985 Add missing providers to config-example.yml 2025-10-25 10:04:24 +01:00
Ian Renton
82b3c262b6 Apple Touch icon #66 2025-10-25 09:51:04 +01:00
Ian Renton
80b5077496 Apple Touch icon #66 2025-10-25 09:49:32 +01:00
Ian Renton
3625998f46 Finish support for WOTA #63 2025-10-25 09:37:41 +01:00
Ian Renton
e31c750b41 Mouseover callsign to reveal operator name 2025-10-25 09:36:30 +01:00
Ian Renton
ab05824c5d Fix a bug that caused repeated lookup attempts for callsigns that were unknown to QRZ/ClubLog and especially those with prefixes/suffixes. 2025-10-25 09:33:44 +01:00
Ian Renton
bb7b6d6f3c Remove console.log 2025-10-23 15:47:35 +01:00
Ian Renton
2c8d18685c Fix escape sequence error in API spec #65 2025-10-23 15:43:37 +01:00
Ian Renton
090310240f Add WOTA location lookup #63 2025-10-23 15:32:38 +01:00
Ian Renton
f2f03b135f Fix a bug with time zone reporting in alerts. 2025-10-23 09:37:22 +01:00
Ian Renton
5d4b3d500d Get ZLOTA spots from its own API rather than PnP. Closes #37 2025-10-23 08:47:00 +01:00
Ian Renton
65d83d2339 Merge remote-tracking branch 'origin/main' 2025-10-23 08:15:42 +01:00
Ian Renton
5093a8d3d1 Support WOTA alerts, need to see a spot before we can support spots properly. #63 2025-10-23 08:15:16 +01:00
Ian Renton
bdd31f6993 FAQ 2025-10-22 21:38:24 +01:00
Ian Renton
1bad16f478 Remove WIP warning from bands display #48 2025-10-21 17:31:08 +01:00
Ian Renton
ae8be4446c New mode seen 2025-10-21 17:26:52 +01:00
Ian Renton
3515fbd5c7 Complete (?) bands display. Closes #48 2025-10-21 17:23:34 +01:00
Ian Renton
f5e50dc5b4 Extend canvas when required #48 2025-10-21 16:51:04 +01:00
Ian Renton
001ec2c9b9 Extend canvas when required #48 2025-10-21 16:43:24 +01:00
Ian Renton
be86160e9c Better rollover and h-scroll on header #48 2025-10-21 16:18:15 +01:00
Ian Renton
0b3b35db35 First pass of the new style of band panel #48 2025-10-21 16:04:10 +01:00
Ian Renton
6e9bab5eee Bands panel layout tweaks #48 2025-10-21 14:02:43 +01:00
Ian Renton
229228d209 Apply SSE Spot Provider patch by Steven M1SDH 2025-10-21 08:11:43 +01:00
Ian Renton
fc951ead41 Fix temporary bands display header. #48 2025-10-20 21:14:21 +01:00
Ian Renton
0db674eeb2 Continue work on bands display. #48 2025-10-20 21:01:00 +01:00
Ian Renton
6ca9f28a56 Start work on bands display. #48 2025-10-20 18:44:51 +01:00
Ian Renton
53977c5306 Defensive coding 2025-10-20 16:09:35 +01:00
Ian Renton
15c216c5e0 Infer location from WAB/WAI grid. Closes #62 2025-10-20 16:07:33 +01:00
Ian Renton
e2e5eb0b8b API spec update 2025-10-20 11:52:41 +01:00
Ian Renton
1a7427ad36 Find n-fer activation references from POTA spot comments. Closes #53 2025-10-20 11:48:51 +01:00
Ian Renton
86f2aed673 Ass WAB/WAI SIGs and extract data from cluster spots. Closes #51 2025-10-20 11:35:46 +01:00
Ian Renton
20977e59cf Extract SIG and SIG_INFO from cluster spots. Closes #47 2025-10-20 11:05:45 +01:00
Ian Renton
a21782cb62 Icon lookup for SIGs in preparation for #47. Improved ZLOTA spotter lookup. 2025-10-20 10:33:18 +01:00
Ian Renton
ae72649df8 Implement Parks n Peaks alert provider. Closes #56 2025-10-20 09:42:38 +01:00
Ian Renton
b4d88a4770 Provide a more useful response when a ValueError is encountered parsing a user's API request. #59 2025-10-20 08:54:15 +01:00
Ian Renton
8c2ab61049 Remove duplicate SIG 2025-10-19 15:35:28 +01:00
Ian Renton
db2376c53a Add icons to menu 2025-10-19 14:48:14 +01:00
Ian Renton
e11483e230 Implement has_sig spot filter. Closes #49 2025-10-19 14:36:22 +01:00
Ian Renton
38222b98c8 Remove tags from comments. Closes #46 2025-10-19 14:28:33 +01:00
Ian Renton
64f8b7d3b7 Rename Sig/Source column in Spot view to Type. Closes #52 2025-10-19 14:19:11 +01:00
Ian Renton
bf0b52d1d8 Band colours were in the wrong place in API docs 2025-10-19 11:10:20 +01:00
Ian Renton
333d6234e8 Forgot IOTA on the SIG list 2025-10-19 10:51:54 +01:00
Ian Renton
772d9f4341 Support de-dupe and comment filtering for spots. Closes #45 2025-10-19 10:18:01 +01:00
Ian Renton
760077b081 Provide links for SIG refs 2025-10-17 12:22:16 +01:00
Ian Renton
ec4291340a Full width tables and map on mobile #44 2025-10-17 10:55:11 +01:00
38 changed files with 1390 additions and 172 deletions
Expand all files Collapse all files

2
README.md
View File

@@ -14,6 +14,8 @@ Supported data sources include DX Clusters, the Reverse Beacon Network (RBN), th
![Screenshot](/images/screenshot2.png)
![Screenshot](/images/screenshot3.png)
### Accessing the public version
You can access the public version's web interface at [https://spothole.app](https://spothole.app), and see [https://spothole.app/apidocs](https://spothole.app/apidocs) for the API details.

56
alertproviders/parksnpeaks.py Normal file
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@@ -0,0 +1,56 @@
import logging
from datetime import datetime
import pytz
from alertproviders.http_alert_provider import HTTPAlertProvider
from core.sig_utils import get_icon_for_sig
from data.alert import Alert
# Alert provider for Parks n Peaks
class ParksNPeaks(HTTPAlertProvider):
POLL_INTERVAL_SEC = 3600
ALERTS_URL = "http://parksnpeaks.org/api/ALERTS/"
def __init__(self, provider_config):
super().__init__(provider_config, self.ALERTS_URL, self.POLL_INTERVAL_SEC)
def http_response_to_alerts(self, http_response):
new_alerts = []
# Iterate through source data
for source_alert in http_response.json():
# Calculate some things
if " - " in source_alert["Location"]:
split = source_alert["Location"].split(" - ")
sig_ref = split[0]
sig_ref_name = split[1]
else:
sig_ref = source_alert["WWFFID"]
sig_ref_name = source_alert["Location"]
start_time = datetime.strptime(source_alert["alTime"], "%Y-%m-%d %H:%M:%S").replace(
tzinfo=pytz.UTC).timestamp()
# Convert to our alert format
alert = Alert(source=self.name,
source_id=source_alert["alID"],
dx_calls=[source_alert["CallSign"].upper()],
freqs_modes=source_alert["Freq"] + " " + source_alert["MODE"],
comment=source_alert["Comments"],
sig=source_alert["Class"],
sig_refs=[sig_ref],
sig_refs_names=[sig_ref_name],
icon=get_icon_for_sig(source_alert["Class"]),
start_time=start_time,
is_dxpedition=False)
# Log a warning for the developer if PnP gives us an unknown programme we've never seen before
if alert.sig not in ["POTA", "SOTA", "WWFF", "SiOTA", "ZLOTA", "KRMNPA"]:
logging.warn("PNP alert found with sig " + alert.sig + ", developer needs to add support for this!")
# If this is POTA, SOTA or WWFF data we already have it through other means, so ignore. Otherwise, add to
# the alert list. Note that while ZLOTA has its own spots API, it doesn't have its own alerts API. So that
# means the PnP *spot* provider rejects ZLOTA spots here, but the PnP *alerts* provider here allows ZLOTA.
if alert.sig not in ["POTA", "SOTA", "WWFF"]:
new_alerts.append(alert)
return new_alerts

3
alertproviders/pota.py
View File

@@ -3,6 +3,7 @@ from datetime import datetime
import pytz
from alertproviders.http_alert_provider import HTTPAlertProvider
from core.sig_utils import get_icon_for_sig
from data.alert import Alert
@@ -27,7 +28,7 @@ class POTA(HTTPAlertProvider):
sig="POTA",
sig_refs=[source_alert["reference"]],
sig_refs_names=[source_alert["name"]],
icon="tree",
icon=get_icon_for_sig("POTA"),
start_time=datetime.strptime(source_alert["startDate"] + source_alert["startTime"],
"%Y-%m-%d%H:%M").replace(tzinfo=pytz.UTC).timestamp(),
end_time=datetime.strptime(source_alert["endDate"] + source_alert["endTime"],

3
alertproviders/sota.py
View File

@@ -3,6 +3,7 @@ from datetime import datetime
import pytz
from alertproviders.http_alert_provider import HTTPAlertProvider
from core.sig_utils import get_icon_for_sig
from data.alert import Alert
@@ -28,7 +29,7 @@ class SOTA(HTTPAlertProvider):
sig="SOTA",
sig_refs=[source_alert["associationCode"] + "/" + source_alert["summitCode"]],
sig_refs_names=[source_alert["summitDetails"]],
icon="mountain-sun",
icon=get_icon_for_sig("SOTA"),
start_time=datetime.strptime(source_alert["dateActivated"],
"%Y-%m-%dT%H:%M:%SZ").replace(tzinfo=pytz.UTC).timestamp(),
is_dxpedition=False)

64
alertproviders/wota.py Normal file
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@@ -0,0 +1,64 @@
from datetime import datetime
import pytz
from rss_parser import RSSParser
from alertproviders.http_alert_provider import HTTPAlertProvider
from core.sig_utils import get_icon_for_sig
from data.alert import Alert
# Alert provider for Wainwrights on the Air
class WOTA(HTTPAlertProvider):
POLL_INTERVAL_SEC = 3600
ALERTS_URL = "https://www.wota.org.uk/alerts_rss.php"
RSS_DATE_TIME_FORMAT = "%a, %d %b %Y %H:%M:%S %z"
def __init__(self, provider_config):
super().__init__(provider_config, self.ALERTS_URL, self.POLL_INTERVAL_SEC)
def http_response_to_alerts(self, http_response):
new_alerts = []
rss = RSSParser.parse(http_response.content.decode())
# Iterate through source data
for source_alert in rss.channel.items:
# Reject GUID missing or zero
if not source_alert.guid or not source_alert.guid.content or source_alert.guid.content == "http://www.wota.org.uk/alerts/0":
continue
# Pick apart the title
title_split = source_alert.title.split(" on ")
dx_call = title_split[0]
ref = None
ref_name = None
if len(title_split) > 1:
ref_split = title_split[1].split(" - ")
ref = ref_split[0]
if len(ref_split) > 1:
ref_name = ref_split[1]
# Pick apart the description
desc_split = source_alert.description.split(". ")
freqs_modes = desc_split[0].replace("Frequencies/modes:", "").strip()
comment = None
if len(desc_split) > 1:
comment = desc_split[1].strip()
time = datetime.strptime(source_alert.pub_date.content, self.RSS_DATE_TIME_FORMAT).astimezone(pytz.UTC)
# Convert to our alert format
alert = Alert(source=self.name,
source_id=source_alert.guid.content,
dx_calls=[dx_call],
freqs_modes=freqs_modes,
comment=comment,
sig="WOTA",
sig_refs=[ref] if ref else [],
sig_refs_names=[ref_name] if ref_name else [],
icon=get_icon_for_sig("WOTA"),
start_time=time.timestamp())
# Add to our list.
new_alerts.append(alert)
return new_alerts

3
alertproviders/wwff.py
View File

@@ -3,6 +3,7 @@ from datetime import datetime
import pytz
from alertproviders.http_alert_provider import HTTPAlertProvider
from core.sig_utils import get_icon_for_sig
from data.alert import Alert
@@ -26,7 +27,7 @@ class WWFF(HTTPAlertProvider):
comment=source_alert["remarks"],
sig="WWFF",
sig_refs=[source_alert["reference"]],
icon="seedling",
icon=get_icon_for_sig("WWFF"),
start_time=datetime.strptime(source_alert["utc_start"],
"%Y-%m-%d %H:%M:%S").replace(tzinfo=pytz.UTC).timestamp(),
end_time=datetime.strptime(source_alert["utc_end"],

16
config-example.yml
View File

@@ -41,6 +41,14 @@ spot-providers:
class: "ParksNPeaks"
name: "ParksNPeaks"
enabled: true
-
class: "ZLOTA"
name: "ZLOTA"
enabled: true
-
class: "WOTA"
name: "WOTA"
enabled: true
-
class: "APRSIS"
name: "APRS-IS"
@@ -84,6 +92,14 @@ alert-providers:
class: "WWFF"
name: "WWFF"
enabled: true
-
class: "ParksNPeaks"
name: "ParksNPeaks"
enabled: true
-
class: "WOTA"
name: "WOTA"
enabled: true
-
class: "NG3K"
name: "NG3K"

25
core/constants.py
View File

@@ -1,20 +1,39 @@
from core.config import SERVER_OWNER_CALLSIGN
from data.band import Band
from data.sig import SIG
# General software
SOFTWARE_NAME = "Spothole by M0TRT"
SOFTWARE_VERSION = "0.1"
# HTTP headers used for spot providers that use HTTP
HTTP_HEADERS = {"User-Agent": SOFTWARE_NAME + " " + SOFTWARE_VERSION + " (operated by " + SERVER_OWNER_CALLSIGN + ")"}
HTTP_HEADERS = {"User-Agent": SOFTWARE_NAME + ", v" + SOFTWARE_VERSION + " (operated by " + SERVER_OWNER_CALLSIGN + ")"}
# Special Interest Groups
SIGS = ["POTA", "SOTA", "WWFF", "GMA", "WWBOTA", "HEMA", "MOTA", "ARLHS", "SiOTA", "WCA"]
SIGS = [
SIG(name="POTA", description="Parks on the Air", icon="tree", ref_regex=r"[A-Z]{2}\-\d+"),
SIG(name="SOTA", description="Summits on the Air", icon="mountain-sun", ref_regex=r"[A-Z0-9]{1,3}\/[A-Z]{2}\-\d+"),
SIG(name="WWFF", description="World Wide Flora & Fauna", icon="seedling", ref_regex=r"[A-Z0-9]{1,3}FF\-\d+"),
SIG(name="GMA", description="Global Mountain Activity", icon="person-hiking", ref_regex=r"[A-Z0-9]{1,3}\/[A-Z]{2}\-\d+"),
SIG(name="WWBOTA", description="Worldwide Bunkers on the Air", icon="radiation", ref_regex=r"B\/[A-Z0-9]{1,3}\-\d+"),
SIG(name="HEMA", description="HuMPs Excluding Marilyns Award", icon="mound", ref_regex=r"[A-Z0-9]{1,3}\/[A-Z]{3}\-\d+"),
SIG(name="IOTA", description="Islands on the Air", icon="umbrella-beach", ref_regex=r"[A-Z]{2}\-\d+"),
SIG(name="MOTA", description="Mills on the Air", icon="fan", ref_regex=r"X\d{4-6}"),
SIG(name="ARLHS", description="Amateur Radio Lighthouse Society", icon="tower-observation", ref_regex=r"[A-Z]{3}\-\d+"),
SIG(name="ILLW", description="International Lighthouse & Lightship Weekend", icon="tower-observation", ref_regex=r"[A-Z]{2}\d{4}"),
SIG(name="SIOTA", description="Silos on the Air", icon="wheat-awn", ref_regex=r"[A-Z]{2}\-[A-Z]{3}\d"),
SIG(name="WCA", description="World Castles Award", icon="chess-rook", ref_regex=r"[A-Z0-9]{1,3}\-\d+"),
SIG(name="ZLOTA", description="New Zealand on the Air", icon="kiwi-bird", ref_regex=r"ZL[A-Z]/[A-Z]{2}\-\d+"),
SIG(name="KRMNPA", description="Keith Roget Memorial National Parks Award", icon="earth-oceania", ref_regex=r""),
SIG(name="WAB", description="Worked All Britain", icon="table-cells-large", ref_regex=r"[A-Z]{1,2}[0-9]{2}"),
SIG(name="WAI", description="Worked All Ireland", icon="table-cells-large", ref_regex=r"[A-Z][0-9]{2}"),
SIG(name="WOTA", description="Wainwrights on the Air", icon="w", ref_regex=r"[A-Z]{3}-[0-9]{2}")
]
# Modes. Note "DIGI" and "DIGITAL" are also supported but are normalised into "DATA".
CW_MODES = ["CW"]
PHONE_MODES = ["PHONE", "SSB", "USB", "LSB", "AM", "FM", "DV", "DMR", "DSTAR", "C4FM", "M17"]
DATA_MODES = ["DATA", "FT8", "FT4", "RTTY", "SSTV", "JS8", "HELL", "BPSK", "PSK", "PSK31", "BPSK31", "OLIVIA"]
DATA_MODES = ["DATA", "FT8", "FT4", "RTTY", "SSTV", "JS8", "HELL", "BPSK", "PSK", "PSK31", "BPSK31", "OLIVIA", "MFSK", "MFSK32"]
ALL_MODES = CW_MODES + PHONE_MODES + DATA_MODES
MODE_TYPES = ["CW", "PHONE", "DATA"]

103
core/geo_utils.py Normal file
View File

@@ -0,0 +1,103 @@
import logging
import re
from math import floor
from pyproj import Transformer
TRANSFORMER_OS_GRID_TO_WGS84 = Transformer.from_crs("EPSG:27700", "EPSG:4326")
TRANSFORMER_IRISH_GRID_TO_WGS84 = Transformer.from_crs("EPSG:29903", "EPSG:4326")
TRANSFORMER_CI_UTM_GRID_TO_WGS84 = Transformer.from_crs("+proj=utm +zone=30 +ellps=WGS84", "EPSG:4326")
# Convert a Worked All Britain or Worked All Ireland reference to a lat/lon point.
def wab_wai_square_to_lat_lon(ref):
# First check we have a valid grid square, and based on what it looks like, use either the Ordnance Survey, Irish,
# or UTM grid systems to perform the conversion.
if re.match(r"^[HNOST][ABCDEFGHJKLMNOPQRSTUVWXYZ][0-9]{2}$", ref):
return os_grid_square_to_lat_lon(ref)
elif re.match(r"^[ABCDEFGHJKLMNOPQRSTUVWXYZ][0-9]{2}$", ref):
return irish_grid_square_to_lat_lon(ref)
elif re.match(r"^W[AV][0-9]{2}$", ref):
return utm_grid_square_to_lat_lon(ref)
else:
logging.warn("Invalid WAB/WAI square: " + ref)
return None
# Get a lat/lon point for the centre of an Ordnance Survey grid square
def os_grid_square_to_lat_lon(ref):
# Convert the letters into multipliers for the 500km squares and 100km squares
offset_500km_multiplier = ord(ref[0]) - 65
offset_100km_multiplier = ord(ref[1]) - 65
# The letter "I" is not used in the grid, so any offset of 8 or more needs to be reduced by 1.
if offset_500km_multiplier >= 8:
offset_500km_multiplier = offset_500km_multiplier - 1
if offset_100km_multiplier >= 8:
offset_100km_multiplier = offset_100km_multiplier - 1
# Convert the offsets into increments of 100km from the false origin (grid square SV):
easting_100km = ((offset_500km_multiplier - 2) % 5) * 5 + (offset_100km_multiplier % 5)
northing_100km = (19 - floor(offset_500km_multiplier / 5) * 5) - floor(offset_100km_multiplier / 5)
# Take the numeric parts of the grid square and multiply by 10000 to get metres, then combine with the 100km
# box offsets
easting = int(ref[2]) * 10000 + easting_100km * 100000
northing = int(ref[3]) * 10000 + northing_100km * 100000
# Add 5000m to each value to get the middle of the box rather than the south-west corner
easting = easting + 5000
northing = northing + 5000
# Reproject to WGS84 lat/lon
lat, lon = TRANSFORMER_OS_GRID_TO_WGS84.transform(easting, northing)
return lat, lon
# Get a lat/lon point for the centre of an Irish Grid square.
def irish_grid_square_to_lat_lon(ref):
# Convert the letters into multipliers for the 100km squares
offset_100km_multiplier = ord(ref[0]) - 65
# The letter "I" is not used in the grid, so any offset of 8 or more needs to be reduced by 1.
if offset_100km_multiplier >= 8:
offset_100km_multiplier = offset_100km_multiplier - 1
# Convert the offsets into increments of 100km from the false origin:
easting_100km = offset_100km_multiplier % 5
northing_100km = 4 - floor(offset_100km_multiplier / 5)
# Take the numeric parts of the grid square and multiply by 10000 to get metres, then combine with the 100km
# box offsets
easting = int(ref[1]) * 10000 + easting_100km * 100000
northing = int(ref[2]) * 10000 + northing_100km * 100000
# Add 5000m to each value to get the middle of the box rather than the south-west corner
easting = easting + 5000
northing = northing + 5000
# Reproject to WGS84 lat/lon
lat, lon = TRANSFORMER_IRISH_GRID_TO_WGS84.transform(easting, northing)
return lat, lon
# Get a lat/lon point for the centre of a UTM grid square (supports only squares WA & WV for the Channel Islands, nothing else implemented)
def utm_grid_square_to_lat_lon(ref):
# Take the numeric parts of the grid square and multiply by 10000 to get metres from the corner of the letter-based grid square
easting = int(ref[2]) * 10000
northing = int(ref[3]) * 10000
# Apply the appropriate offset based on whether the square is WA or WV
easting = easting + 500000
if ref[1] == "A":
northing = northing + 5500000
else:
northing = northing + 5400000
# Add 5000m to each value to get the middle of the box rather than the south-west corner
easting = easting + 5000
northing = northing + 5000
# Reproject to WGS84 lat/lon
lat, lon = TRANSFORMER_CI_UTM_GRID_TO_WGS84.transform(easting, northing)
return lat, lon

24
core/lookup_helper.py
View File

@@ -3,7 +3,7 @@ import logging
from datetime import timedelta
from diskcache import Cache
from pyhamtools import LookupLib, Callinfo
from pyhamtools import LookupLib, Callinfo, callinfo
from pyhamtools.exceptions import APIKeyMissingError
from pyhamtools.frequency import freq_to_band
from pyhamtools.locator import latlong_to_locator
@@ -266,14 +266,19 @@ class LookupHelper:
# Utility method to get QRZ.com data from cache if possible, if not get it from the API and cache it
def get_qrz_data_for_callsign(self, call):
# Fetch from cache if we can, otherwise fetch from the API and cache it
qrz_data = self.QRZ_CALLSIGN_DATA_CACHE.get(call)
if qrz_data:
return qrz_data
if call in self.QRZ_CALLSIGN_DATA_CACHE:
return self.QRZ_CALLSIGN_DATA_CACHE.get(call)
elif self.QRZ_AVAILABLE:
try:
data = self.LOOKUP_LIB_QRZ.lookup_callsign(callsign=call)
self.QRZ_CALLSIGN_DATA_CACHE.add(call, data, expire=604800) # 1 week in seconds
return data
except KeyError:
# QRZ had no info for the call, but maybe it had prefixes or suffixes. Try again with the base call.
try:
data = self.LOOKUP_LIB_QRZ.lookup_callsign(callsign=callinfo.Callinfo.get_homecall(call))
self.QRZ_CALLSIGN_DATA_CACHE.add(call, data, expire=604800) # 1 week in seconds
return data
except KeyError:
# QRZ had no info for the call, that's OK. Cache a None so we don't try to look this up again
self.QRZ_CALLSIGN_DATA_CACHE.add(call, None, expire=604800) # 1 week in seconds
@@ -284,14 +289,19 @@ class LookupHelper:
# Utility method to get Clublog API data from cache if possible, if not get it from the API and cache it
def get_clublog_api_data_for_callsign(self, call):
# Fetch from cache if we can, otherwise fetch from the API and cache it
clublog_data = self.CLUBLOG_CALLSIGN_DATA_CACHE.get(call)
if clublog_data:
return clublog_data
if call in self.CLUBLOG_CALLSIGN_DATA_CACHE:
return self.CLUBLOG_CALLSIGN_DATA_CACHE.get(call)
elif self.CLUBLOG_API_AVAILABLE:
try:
data = self.LOOKUP_LIB_CLUBLOG_API.lookup_callsign(callsign=call)
self.CLUBLOG_CALLSIGN_DATA_CACHE.add(call, data, expire=604800) # 1 week in seconds
return data
except KeyError:
# Clublog had no info for the call, but maybe it had prefixes or suffixes. Try again with the base call.
try:
data = self.LOOKUP_LIB_CLUBLOG_API.lookup_callsign(callsign=callinfo.Callinfo.get_homecall(call))
self.CLUBLOG_CALLSIGN_DATA_CACHE.add(call, data, expire=604800) # 1 week in seconds
return data
except KeyError:
# Clublog had no info for the call, that's OK. Cache a None so we don't try to look this up again
self.CLUBLOG_CALLSIGN_DATA_CACHE.add(call, None, expire=604800) # 1 week in seconds

21
core/sig_utils.py Normal file
View File

@@ -0,0 +1,21 @@
from core.constants import SIGS
# Utility function to get the icon for a named SIG. If no match is found, the "circle-question" icon will be returned.
def get_icon_for_sig(sig):
for s in SIGS:
if s.name == sig:
return s.icon
return "circle-question"
# Utility function to get the regex string for a SIG reference for a named SIG. If no match is found, None will be returned.
def get_ref_regex_for_sig(sig):
for s in SIGS:
if s.name == sig:
return s.ref_regex
return None
# Regex matching any SIG
ANY_SIG_REGEX = r"(" + r"|".join(list(map(lambda p: p.name, SIGS))) + r")"
# Regex matching any SIG reference
ANY_XOTA_SIG_REF_REGEX = r"[\w\/]+\-\d+"

8
data/alert.py
View File

@@ -1,6 +1,7 @@
import copy
import hashlib
import json
import re
from dataclasses import dataclass
from datetime import datetime, timedelta
@@ -8,6 +9,7 @@ import pytz
from core.constants import DXCC_FLAGS
from core.lookup_helper import lookup_helper
from core.sig_utils import get_icon_for_sig
# Data class that defines an alert.
@@ -58,7 +60,7 @@ class Alert:
# Activation score. SOTA only
activation_score: int = None
# Icon, from the Font Awesome set. This is fairly opinionated but is here to help the alerthole web UI and Field alertter. Does not include the "fa-" prefix.
icon: str = "question"
icon: str = None
# Whether this alert is for a DXpedition, as opposed to e.g. an xOTA programme.
is_dxpedition: bool = False
# Where we got the alert from, e.g. "POTA", "SOTA"...
@@ -99,6 +101,10 @@ class Alert:
if self.dx_dxcc_id and self.dx_dxcc_id in DXCC_FLAGS and not self.dx_flag:
self.dx_flag = DXCC_FLAGS[self.dx_dxcc_id]
# Icon from SIG
if self.sig and not self.icon:
self.icon = get_icon_for_sig(self.sig)
# DX operator details lookup, using QRZ.com. This should be the last resort compared to taking the data from
# the actual alertting service, e.g. we don't want to accidentally use a user's QRZ.com home lat/lon instead of
# the one from the park reference they're at.

14
data/sig.py Normal file
View File

@@ -0,0 +1,14 @@
from dataclasses import dataclass
# Data class that defines a Special Interest Group.
@dataclass
class SIG:
# SIG name, e.g. "POTA"
name: str
# Description, e.g. "Parks on the Air"
description: str
# Icon to use for it, from the Font Awesome set. This is fairly opinionated but is here to help the Spothole web UI
# and Field Spotter. Does not include the "fa-" prefix.
icon: str
# Regex matcher for references, e.g. for POTA r"[A-Z]{2}\-\d+".
ref_regex: str

53
data/spot.py
View File

@@ -2,6 +2,7 @@ import copy
import hashlib
import json
import logging
import re
from dataclasses import dataclass
from datetime import datetime
@@ -9,7 +10,9 @@ import pytz
from pyhamtools.locator import locator_to_latlong, latlong_to_locator
from core.constants import DXCC_FLAGS
from core.geo_utils import wab_wai_square_to_lat_lon
from core.lookup_helper import lookup_helper
from core.sig_utils import get_icon_for_sig
# Data class that defines a spot.
@@ -18,7 +21,6 @@ class Spot:
# Unique identifier for the spot
id: str = None
# DX (spotted) operator info
# Callsign of the operator that has been spotted
@@ -49,12 +51,13 @@ class Spot:
# lookup
dx_latitude: float = None
dx_longitude: float = None
# DX Location source. Indicates how accurate the location might be. Values: "SPOT", "QRZ, "DXCC", "NONE"
# DX Location source. Indicates how accurate the location might be. Values: "SPOT", "WAB/WAI GRID", "QRZ", "DXCC", "NONE"
dx_location_source: str = "NONE"
# DX Location good. Indicates that the software thinks the location data is good enough to plot on a map.
# DX Location good. Indicates that the software thinks the location data is good enough to plot on a map. This is
# true if the location source is "SPOT" or "WAB/WAI GRID", or if the location source is "QRZ" and the DX callsign
# doesn't have a suffix like /P.
dx_location_good: bool = False
# DE (Spotter) info
# Callsign of the spotter
@@ -75,7 +78,6 @@ class Spot:
de_latitude: float = None
de_longitude: float = None
# General QSO info
# Reported mode, such as SSB, PHONE, CW, FT8...
@@ -93,7 +95,6 @@ class Spot:
# QRT state. Some APIs return spots marked as QRT. Otherwise we can check the comments.
qrt: bool = False
# Special Interest Group info
# Special Interest Group (SIG), e.g. outdoor activity programme such as POTA
@@ -102,21 +103,21 @@ class Spot:
sig_refs: list = None
# SIG reference names
sig_refs_names: list = None
# SIG reference URLs
sig_refs_urls: list = None
# Activation score. SOTA only
activation_score: int = None
# Display guidance (optional)
# Icon, from the Font Awesome set. This is fairly opinionated but is here to help the Spothole web UI and Field
# Spotter. Does not include the "fa-" prefix.
icon: str = "question"
icon: str = None
# Colour to represent this spot, if a client chooses to colour spots based on their frequency band, using PSK
# Reporter's default colours. HTML colour e.g. hex. A contrast colour is also provided which will be black or white.
band_color: str = None
band_contrast_color: str = None
# Timing info
# Time of the spot, UTC seconds since UNIX epoch
@@ -130,7 +131,6 @@ class Spot:
# Time that this software received the spot, ISO 8601
received_time_iso: str = None
# Source info
# Where we got the spot from, e.g. "POTA", "Cluster"...
@@ -177,6 +177,20 @@ class Spot:
if self.de_call and "-" in self.de_call:
self.de_call = self.de_call.split("-")[0]
# If we have a spotter of "RBNHOLE", we should have the actual spotter callsign in the comment, so extract it.
# RBNHole posts come from a number of providers, so it's dealt with here in the generic spot handling code.
if self.de_call == "RBNHOLE" and self.comment:
rbnhole_call_match = re.search(r"\Wat ([a-z0-9/]+)\W", self.comment, re.IGNORECASE)
if rbnhole_call_match:
self.de_call = rbnhole_call_match.group(1).upper()
# If we have a spotter of "SOTAMAT", we might have the actual spotter callsign in the comment, if so extract it.
# SOTAMAT can do POTA as well as SOTA, so it's dealt with here in the generic spot handling code.
if self.de_call == "SOTAMAT" and self.comment:
sotamat_call_match = re.search(r"\Wfrom ([a-z0-9/]+)]", self.comment, re.IGNORECASE)
if sotamat_call_match:
self.de_call = sotamat_call_match.group(1).upper()
# Spotter country, continent, zones etc. from callsign.
# DE of "RBNHOLE" and "SOTAMAT" are not things we can look up location for
if self.de_call != "RBNHOLE" and self.de_call != "SOTAMAT":
@@ -215,6 +229,10 @@ class Spot:
if self.mode and not self.mode_type:
self.mode_type = lookup_helper.infer_mode_type_from_mode(self.mode)
# Icon from SIG
if self.sig and not self.icon:
self.icon = get_icon_for_sig(self.sig)
# DX Grid to lat/lon and vice versa
if self.dx_grid and not self.dx_latitude:
ll = locator_to_latlong(self.dx_grid)
@@ -228,6 +246,19 @@ class Spot:
if self.dx_latitude:
self.dx_location_source = "SPOT"
# WAB/WAI grid to lat/lon
if not self.dx_latitude and self.sig and self.sig_refs and len(self.sig_refs) > 0 and (
self.sig == "WAB" or self.sig == "WAI"):
ll = wab_wai_square_to_lat_lon(self.sig_refs[0])
if ll:
self.dx_latitude = ll[0]
self.dx_longitude = ll[1]
try:
self.dx_grid = latlong_to_locator(self.dx_latitude, self.dx_longitude, 8)
except:
logging.debug("Invalid lat/lon received from WAB/WAI grid")
self.dx_location_source = "WAB/WAI GRID"
# QRT comment detection
if self.comment and not self.qrt:
self.qrt = "QRT" in self.comment.upper()
@@ -256,7 +287,7 @@ class Spot:
# DX Location is "good" if it is from a spot, or from QRZ if the callsign doesn't contain a slash, so the operator
# is likely at home.
self.dx_location_good = self.dx_location_source == "SPOT" or (
self.dx_location_good = self.dx_location_source == "SPOT" or self.dx_location_source == "WAB/WAI GRID" or (
self.dx_location_source == "QRZ" and not "/" in self.dx_call)
# DE of "RBNHOLE" and "SOTAMAT" are not things we can look up location for

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1
requirements.txt
View File

@@ -10,3 +10,4 @@ diskcache~=5.6.3
psutil~=7.1.0
requests-sse~=0.5.2
rss-parser~=2.1.1
pyproj~=3.7.2

78
server/webserver.py
View File

@@ -31,14 +31,15 @@ class WebServer:
bottle.BaseTemplate.defaults['software_version'] = SOFTWARE_VERSION
# Routes for API calls
bottle.get("/api/v1/spots")(lambda: self.serve_api(self.get_spot_list_with_filters()))
bottle.get("/api/v1/alerts")(lambda: self.serve_api(self.get_alert_list_with_filters()))
bottle.get("/api/v1/spots")(lambda: self.serve_spots_api())
bottle.get("/api/v1/alerts")(lambda: self.serve_alerts_api())
bottle.get("/api/v1/options")(lambda: self.serve_api(self.get_options()))
bottle.get("/api/v1/status")(lambda: self.serve_api(self.status_data))
bottle.post("/api/v1/spot")(lambda: self.accept_spot())
# Routes for templated pages
bottle.get("/")(lambda: self.serve_template('webpage_spots'))
bottle.get("/map")(lambda: self.serve_template('webpage_map'))
bottle.get("/bands")(lambda: self.serve_template('webpage_bands'))
bottle.get("/alerts")(lambda: self.serve_template('webpage_alerts'))
bottle.get("/status")(lambda: self.serve_template('webpage_status'))
bottle.get("/about")(lambda: self.serve_template('webpage_about'))
@@ -56,6 +57,38 @@ class WebServer:
self.status = "Waiting"
run(host='localhost', port=self.port)
# Serve the JSON API /spots endpoint
def serve_spots_api(self):
try:
data = self.get_spot_list_with_filters()
return self.serve_api(data)
except ValueError as e:
logging.error(e)
response.content_type = 'application/json'
response.status = 400
return json.dumps("Bad request - " + str(e), default=serialize_everything)
except Exception as e:
logging.error(e)
response.content_type = 'application/json'
response.status = 500
return json.dumps("Error - " + str(e), default=serialize_everything)
# Serve the JSON API /alerts endpoint
def serve_alerts_api(self):
try:
data = self.get_alert_list_with_filters()
return self.serve_api(data)
except ValueError as e:
logging.error(e)
response.content_type = 'application/json'
response.status = 400
return json.dumps("Bad request - " + str(e), default=serialize_everything)
except Exception as e:
logging.error(e)
response.content_type = 'application/json'
response.status = 500
return json.dumps("Error - " + str(e), default=serialize_everything)
# Serve a JSON API endpoint
def serve_api(self, data):
self.last_api_access_time = datetime.now(pytz.UTC)
@@ -109,6 +142,7 @@ class WebServer:
response.content_type = 'application/json'
response.set_header('Cache-Control', 'no-store')
response.status = 201
return json.dumps("OK", default=serialize_everything)
except Exception as e:
logging.error(e)
@@ -137,6 +171,9 @@ class WebServer:
# in seconds UTC.
# We can also filter by source, sig, band, mode, dx_continent and de_continent. Each of these accepts a single
# value or a comma-separated list.
# We can filter by comments, accepting a single string, where the API will only return spots where the comment
# contains the provided value (case-insensitive).
# We can "de-dupe" spots, so only the latest spot will be sent for each callsign.
# We can provide a "limit" number as well. Spots are always returned newest-first; "limit" limits to only the
# most recent X spots.
spot_ids = list(self.spots.iterkeys())
@@ -162,8 +199,19 @@ class WebServer:
sources = query.get(k).split(",")
spots = [s for s in spots if s.source and s.source in sources]
case "sig":
# If a list of sigs is provided, the spot must have a sig and it must match one of them
sigs = query.get(k).split(",")
spots = [s for s in spots if s.sig and s.sig in sigs]
case "needs_sig":
# If true, a sig is required, regardless of what it is, it just can't be missing.
needs_sig = query.get(k).upper() == "TRUE"
if needs_sig:
spots = [s for s in spots if s.sig]
case "needs_sig_ref":
# If true, at least one sig ref is required, regardless of what it is, it just can't be missing.
needs_sig_ref = query.get(k).upper() == "TRUE"
if needs_sig_ref:
spots = [s for s in spots if s.sig_refs and len(s.sig_refs) > 0]
case "band":
bands = query.get(k).split(",")
spots = [s for s in spots if s.band and s.band in bands]
@@ -179,6 +227,32 @@ class WebServer:
case "de_continent":
deconts = query.get(k).split(",")
spots = [s for s in spots if s.de_continent and s.de_continent in deconts]
case "comment_includes":
comment_includes = query.get(k).strip()
spots = [s for s in spots if s.comment and comment_includes.upper() in s.comment.upper()]
case "allow_qrt":
# If false, spots that are flagged as QRT are not returned.
prevent_qrt = query.get(k).upper() == "FALSE"
if prevent_qrt:
spots = [s for s in spots if not s.qrt or s.qrt == False]
case "needs_good_location":
# If true, spots require a "good" location to be returned
needs_good_location = query.get(k).upper() == "TRUE"
if needs_good_location:
spots = [s for s in spots if s.dx_location_good]
case "dedupe":
# Ensure only the latest spot of each callsign is present in the list. This relies on the list being
# in reverse time order, so if any future change allows re-ordering the list, that should be done
# *after* this.
dedupe = query.get(k).upper() == "TRUE"
if dedupe:
spots_temp = []
already_seen = []
for s in spots:
if s.dx_call not in already_seen:
spots_temp.append(s)
already_seen.append(s.dx_call)
spots = spots_temp
# If we have a "limit" parameter, we apply that last, regardless of where it appeared in the list of keys.
if "limit" in query.keys():
spots = spots[:int(query.get("limit"))]

21
spotproviders/dxcluster.py
View File

@@ -7,6 +7,8 @@ from time import sleep
import pytz
import telnetlib3
from core.constants import SIGS
from core.sig_utils import ANY_SIG_REGEX, ANY_XOTA_SIG_REF_REGEX, get_icon_for_sig, get_ref_regex_for_sig
from data.spot import Spot
from core.config import SERVER_OWNER_CALLSIGN
from spotproviders.spot_provider import SpotProvider
@@ -17,9 +19,9 @@ class DXCluster(SpotProvider):
# Note the callsign pattern deliberately excludes calls ending in "-#", which are from RBN and can be enabled by
# default on some clusters. If you want RBN spots, there is a separate provider for that.
CALLSIGN_PATTERN = "([a-z|0-9|/]+)"
FREQUENCY_PATTERM = "([0-9|.]+)"
FREQUENCY_PATTERN = "([0-9|.]+)"
LINE_PATTERN = re.compile(
"^DX de " + CALLSIGN_PATTERN + ":\\s+" + FREQUENCY_PATTERM + "\\s+" + CALLSIGN_PATTERN + "\\s+(.*)\\s+(\\d{4}Z)",
"^DX de " + CALLSIGN_PATTERN + ":\\s+" + FREQUENCY_PATTERN + "\\s+" + CALLSIGN_PATTERN + "\\s+(.*)\\s+(\\d{4}Z)",
re.IGNORECASE)
# Constructor requires hostname and port
@@ -75,6 +77,21 @@ class DXCluster(SpotProvider):
icon="desktop",
time=spot_datetime.timestamp())
# See if the comment looks like it contains a SIG (and optionally SIG reference). Currently,
# only one sig ref is supported. Note that this code is specifically in the DX Cluster class and
# not in the general "spot" infer_missing() method. Because we only support one SIG per spot
# at the moment (see issue #54), we don't want to risk e.g. a POTA spot with comment "WWFF GFF-0001"
# being converted into a WWFF spot.
sig_match = re.search(r"(^|\W)" + ANY_SIG_REGEX + r"($|\W)", spot.comment, re.IGNORECASE)
if sig_match:
spot.sig = sig_match.group(2).upper()
spot.icon = get_icon_for_sig(spot.sig)
ref_regex = get_ref_regex_for_sig(spot.sig)
if ref_regex:
sig_ref_match = re.search(r"(^|\W)" + spot.sig + r"($|\W)(" + ref_regex + r")($|\W)", spot.comment, re.IGNORECASE)
if sig_ref_match:
spot.sig_refs = [sig_ref_match.group(3).upper()]
# Add to our list
self.submit(spot)

14
spotproviders/gma.py
View File

@@ -5,6 +5,7 @@ import pytz
from requests_cache import CachedSession
from core.constants import HTTP_HEADERS
from core.sig_utils import get_icon_for_sig
from data.spot import Spot
from spotproviders.http_spot_provider import HTTPSpotProvider
@@ -36,6 +37,7 @@ class GMA(HTTPSpotProvider):
comment=source_spot["TEXT"],
sig_refs=[source_spot["REF"]],
sig_refs_names=[source_spot["NAME"]],
sig_refs_urls=["https://www.cqgma.org/zinfo.php?ref=" + source_spot["REF"]],
time=datetime.strptime(source_spot["DATE"] + source_spot["TIME"], "%Y%m%d%H%M").replace(
tzinfo=pytz.UTC).timestamp(),
dx_latitude=float(source_spot["LAT"]) if (source_spot["LAT"] and source_spot["LAT"] != "") else None,
@@ -56,27 +58,21 @@ class GMA(HTTPSpotProvider):
match ref_info["reftype"]:
case "Summit":
spot.sig = "GMA"
spot.icon = "mountain"
case "IOTA Island":
spot.sig = "IOTA"
spot.icon = "umbrella-beach"
case "Lighthouse (ILLW)":
spot.sig = "ILLW"
spot.icon = "tower-observation"
case "Lighthouse (ARLHS)":
spot.sig = "ARLHS"
spot.icon = "tower-observation"
case "Castle":
spot.sig = "WCA/COTA"
spot.icon = "chess-rook"
spot.sig = "WCA"
case "Mill":
spot.sig = "MOTA"
spot.icon = "fan"
case _:
logging.warn("GMA spot found with ref type " + ref_info[
"reftype"] + ", developer needs to figure out an icon for this!")
"reftype"] + ", developer needs to add support for this!")
spot.sig = ref_info["reftype"]
spot.icon = "person-hiking"
spot.icon = get_icon_for_sig(spot.sig)
# Add to our list. Don't worry about de-duping, removing old spots etc. at this point; other code will do
# that for us.

3
spotproviders/hema.py
View File

@@ -5,6 +5,7 @@ import pytz
import requests
from core.constants import HTTP_HEADERS
from core.sig_utils import get_icon_for_sig
from data.spot import Spot
from spotproviders.http_spot_provider import HTTPSpotProvider
@@ -54,7 +55,7 @@ class HEMA(HTTPSpotProvider):
sig="HEMA",
sig_refs=[spot_items[3].upper()],
sig_refs_names=[spot_items[4]],
icon="mound",
icon=get_icon_for_sig("HEMA"),
time=datetime.strptime(spot_items[0], "%d/%m/%Y %H:%M").replace(tzinfo=pytz.UTC).timestamp(),
dx_latitude=float(spot_items[7]),
dx_longitude=float(spot_items[8]))

51
spotproviders/parksnpeaks.py
View File

@@ -1,11 +1,13 @@
import csv
import logging
import re
from datetime import datetime, timedelta
import pytz
from requests_cache import CachedSession
from core.constants import HTTP_HEADERS
from core.sig_utils import get_icon_for_sig
from data.spot import Spot
from spotproviders.http_spot_provider import HTTPSpotProvider
@@ -17,9 +19,6 @@ class ParksNPeaks(HTTPSpotProvider):
SIOTA_LIST_URL = "https://www.silosontheair.com/data/silos.csv"
SIOTA_LIST_CACHE_TIME_DAYS = 30
SIOTA_LIST_CACHE = CachedSession("cache/siota_data_cache", expire_after=timedelta(days=SIOTA_LIST_CACHE_TIME_DAYS))
ZLOTA_LIST_URL = "https://ontheair.nz/assets/assets.json"
ZLOTA_LIST_CACHE_TIME_DAYS = 30
ZLOTA_LIST_CACHE = CachedSession("cache/zlota_data_cache", expire_after=timedelta(days=ZLOTA_LIST_CACHE_TIME_DAYS))
def __init__(self, provider_config):
super().__init__(provider_config, self.SPOTS_URL, self.POLL_INTERVAL_SEC)
@@ -32,7 +31,7 @@ class ParksNPeaks(HTTPSpotProvider):
spot = Spot(source=self.name,
source_id=source_spot["actID"],
dx_call=source_spot["actCallsign"].upper(),
de_call=source_spot["actSpoter"].upper(), # typo exists in API
de_call=source_spot["actSpoter"].upper() if source_spot["actSpoter"] != "" else None, # typo exists in API
freq=float(source_spot["actFreq"].replace(",", "")) * 1000000 if (
source_spot["actFreq"] != "") else None,
# Seen PNP spots with empty frequency, and with comma-separated thousands digits
@@ -40,22 +39,22 @@ class ParksNPeaks(HTTPSpotProvider):
comment=source_spot["actComments"],
sig=source_spot["actClass"],
sig_refs=[source_spot["actSiteID"]],
icon=get_icon_for_sig(source_spot["actClass"]),
time=datetime.strptime(source_spot["actTime"], "%Y-%m-%d %H:%M:%S").replace(
tzinfo=pytz.UTC).timestamp())
# PNP supports a bunch of programs which should have different icons
if spot.sig == "SiOTA":
spot.icon = "wheat-awn"
elif spot.sig == "ZLOTA":
spot.icon = "kiwi-bird"
elif spot.sig in ["POTA", "SOTA", "WWFF"]:
# Don't care about an icon as this will be rejected anyway, we have better data from POTA/SOTA/WWFF direct
spot.icon = ""
else:
# Unknown programme we've never seen before
logging.warn(
"PNP spot found with sig " + spot.sig + ", developer needs to add support for icon and grid/lat/lon lookup!")
spot.icon = "question"
# Free text location is not present in all spots, so only add it if it's set
if "actLocation" in source_spot and source_spot["actLocation"] != "":
spot.sig_refs_names = [source_spot["actLocation"]]
# Extract a de_call if it's in the comment but not in the "actSpoter" field
m = re.search(r"\(de ([A-Za-z0-9]*)\)", spot.comment)
if not spot.de_call and m:
spot.de_call = m.group(1)
# Log a warning for the developer if PnP gives us an unknown programme we've never seen before
if spot.sig not in ["POTA", "SOTA", "WWFF", "SiOTA", "ZLOTA", "KRMNPA"]:
logging.warn("PNP spot found with sig " + spot.sig + ", developer needs to add support for this!")
# SiOTA lat/lon/grid lookup
if spot.sig == "SiOTA":
@@ -68,20 +67,10 @@ class ParksNPeaks(HTTPSpotProvider):
spot.dx_grid = row["LOCATOR"]
break
# ZLOTA name/lat/lon lookup
if spot.sig == "ZLOTA":
zlota_data = self.ZLOTA_LIST_CACHE.get(self.ZLOTA_LIST_URL, headers=HTTP_HEADERS).json()
for asset in zlota_data:
if asset["code"] == spot.sig_refs[0]:
spot.sig_refs_names = [asset["name"]]
spot.dx_latitude = asset["y"]
spot.dx_longitude = asset["x"]
# Junk the "DE call", PNP always returns "ZLOTA" as the spotter for ZLOTA spots
spot.de_call = None
break
# Note there is currently no support for KRMNPA location lookup, see issue #61.
# If this is POTA, SOTA or WWFF data we already have it through other means, so ignore. Otherwise, add to
# the spot list.
if spot.sig not in ["POTA", "SOTA", "WWFF"]:
# If this is POTA, SOTA, WWFF or ZLOTA data we already have it through other means, so ignore. Otherwise,
# add to the spot list.
if spot.sig not in ["POTA", "SOTA", "WWFF", "ZLOTA"]:
new_spots.append(spot)
return new_spots

30
spotproviders/pota.py
View File

@@ -1,7 +1,11 @@
from datetime import datetime
import re
from datetime import datetime, timedelta
import pytz
from requests_cache import CachedSession
from core.constants import HTTP_HEADERS
from core.sig_utils import get_icon_for_sig, get_ref_regex_for_sig
from data.spot import Spot
from spotproviders.http_spot_provider import HTTPSpotProvider
@@ -10,6 +14,11 @@ from spotproviders.http_spot_provider import HTTPSpotProvider
class POTA(HTTPSpotProvider):
POLL_INTERVAL_SEC = 120
SPOTS_URL = "https://api.pota.app/spot/activator"
# Might need to look up extra park data
PARK_URL_ROOT = "https://api.pota.app/park/"
PARK_DATA_CACHE_TIME_DAYS = 30
PARK_DATA_CACHE = CachedSession("cache/pota_park_data_cache",
expire_after=timedelta(days=PARK_DATA_CACHE_TIME_DAYS))
def __init__(self, provider_config):
super().__init__(provider_config, self.SPOTS_URL, self.POLL_INTERVAL_SEC)
@@ -29,12 +38,27 @@ class POTA(HTTPSpotProvider):
sig="POTA",
sig_refs=[source_spot["reference"]],
sig_refs_names=[source_spot["name"]],
icon="tree",
time=datetime.strptime(source_spot["spotTime"], "%Y-%m-%dT%H:%M:%S").replace(tzinfo=pytz.UTC).timestamp(),
sig_refs_urls=["https://pota.app/#/park/" + source_spot["reference"]],
icon=get_icon_for_sig("POTA"),
time=datetime.strptime(source_spot["spotTime"], "%Y-%m-%dT%H:%M:%S").replace(
tzinfo=pytz.UTC).timestamp(),
dx_grid=source_spot["grid6"],
dx_latitude=source_spot["latitude"],
dx_longitude=source_spot["longitude"])
# Sometimes we can get other refs in the comments for n-fer activations, extract them
all_comment_refs = re.findall(get_ref_regex_for_sig("POTA"), spot.comment)
for r in all_comment_refs:
if r not in spot.sig_refs:
spot.sig_refs.append(r.upper())
spot.sig_refs_urls.append("https://pota.app/#/park/" + r.upper())
# Now we need to look up the name of that reference from the API, because the comment won't have it
park_response = self.PARK_DATA_CACHE.get(self.PARK_URL_ROOT + r.upper(), headers=HTTP_HEADERS)
park_data = park_response.json()
if park_data and "name" in park_data:
spot.sig_refs_names.append(park_data["name"])
# Add to our list. Don't worry about de-duping, removing old spots etc. at this point; other code will do
# that for us.
new_spots.append(spot)

4
spotproviders/sota.py
View File

@@ -5,6 +5,7 @@ import requests
from requests_cache import CachedSession
from core.constants import HTTP_HEADERS
from core.sig_utils import get_icon_for_sig
from data.spot import Spot
from spotproviders.http_spot_provider import HTTPSpotProvider
@@ -50,7 +51,8 @@ class SOTA(HTTPSpotProvider):
sig="SOTA",
sig_refs=[source_spot["summitCode"]],
sig_refs_names=[source_spot["summitName"]],
icon="mountain-sun",
sig_refs_urls=["https://www.sotadata.org.uk/en/summit/" + source_spot["summitCode"]],
icon=get_icon_for_sig("SOTA"),
time=datetime.fromisoformat(source_spot["timeStamp"]).timestamp(),
activation_score=source_spot["points"])

12
spotproviders/sse_spot_provider.py
View File

@@ -34,11 +34,19 @@ class SSESpotProvider(SpotProvider):
if self.thread:
self.thread.join()
def _on_open(self):
self.status = "Waiting for Data"
def _on_error(self):
self.status = "Connecting"
def run(self):
while not self.stopped:
try:
logging.debug("Connecting to " + self.name + " spot API...")
with EventSource(self.url, headers=HTTP_HEADERS, latest_event_id=self.last_event_id, timeout=30) as event_source:
self.status = "Connecting"
with EventSource(self.url, headers=HTTP_HEADERS, latest_event_id=self.last_event_id, timeout=30,
on_open=self._on_open, on_error=self._on_error) as event_source:
self.event_source = event_source
for event in self.event_source:
if event.type == 'message':
@@ -58,6 +66,8 @@ class SSESpotProvider(SpotProvider):
except Exception as e:
self.status = "Error"
logging.exception("Exception in SSE Spot Provider (" + self.name + ")")
else:
self.status = "Disconnected"
sleep(5) # Wait before trying to reconnect
# Convert an SSE message received from the API into a spot. The whole message data is provided here so the subclass

88
spotproviders/wota.py Normal file
View File

@@ -0,0 +1,88 @@
from datetime import timedelta, datetime
import pytz
from requests_cache import CachedSession
from rss_parser import RSSParser
from core.constants import HTTP_HEADERS
from core.sig_utils import get_icon_for_sig
from data.spot import Spot
from spotproviders.http_spot_provider import HTTPSpotProvider
# Spot provider for Wainwrights on the Air
class WOTA(HTTPSpotProvider):
POLL_INTERVAL_SEC = 120
SPOTS_URL = "https://www.wota.org.uk/spots_rss.php"
LIST_URL = "https://www.wota.org.uk/mapping/data/summits.json"
LIST_CACHE_TIME_DAYS = 30
LIST_CACHE = CachedSession("cache/wota_data_cache", expire_after=timedelta(days=LIST_CACHE_TIME_DAYS))
RSS_DATE_TIME_FORMAT = "%a, %d %b %Y %H:%M:%S %z"
def __init__(self, provider_config):
super().__init__(provider_config, self.SPOTS_URL, self.POLL_INTERVAL_SEC)
def http_response_to_spots(self, http_response):
new_spots = []
rss = RSSParser.parse(http_response.content.decode())
# Iterate through source data
for source_spot in rss.channel.items:
# Reject GUID missing or zero
if not source_spot.guid or not source_spot.guid.content or source_spot.guid.content == "http://www.wota.org.uk/spots/0":
continue
# Pick apart the title
title_split = source_spot.title.split(" on ")
dx_call = title_split[0]
ref = None
ref_name = None
if len(title_split) > 1:
ref_split = title_split[1].split(" - ")
ref = ref_split[0]
if len(ref_split) > 1:
ref_name = ref_split[1]
# Pick apart the description
desc_split = source_spot.description.split(". ")
freq_mode = desc_split[0].replace("Frequencies/modes:", "").strip()
freq_mode_split = freq_mode.split("-")
freq_hz = float(freq_mode_split[0]) * 1000000
mode = freq_mode_split[1]
comment = None
if len(desc_split) > 1:
comment = desc_split[1].strip()
spotter = None
if len(desc_split) > 2:
spotter = desc_split[2].replace("Spotted by ", "").replace(".", "").strip()
time = datetime.strptime(source_spot.pub_date.content, self.RSS_DATE_TIME_FORMAT).astimezone(pytz.UTC)
# Convert to our spot format
spot = Spot(source=self.name,
source_id=source_spot.guid.content,
dx_call=dx_call,
de_call=spotter,
freq=freq_hz,
mode=mode,
comment=comment,
sig="WOTA",
sig_refs=[ref] if ref else [],
sig_refs_names=[ref_name] if ref_name else [],
sig_refs_urls="https://www.wota.org.uk/MM_" + ref if ref else [],
icon=get_icon_for_sig("WOTA"),
time=time.timestamp())
# WOTA name/lat/lon lookup
wota_data = self.LIST_CACHE.get(self.LIST_URL, headers=HTTP_HEADERS).json()
for feature in wota_data["features"]:
if feature["properties"]["wotaId"] == spot.sig_refs[0]:
spot.sig_refs_names = [feature["properties"]["title"]]
spot.dx_latitude = feature["geometry"]["coordinates"][1]
spot.dx_longitude = feature["geometry"]["coordinates"][0]
spot.dx_grid = feature["properties"]["qthLocator"]
break
new_spots.append(spot)
return new_spots

10
spotproviders/wwbota.py
View File

@@ -1,6 +1,7 @@
import json
from datetime import datetime
from core.sig_utils import get_icon_for_sig
from data.spot import Spot
from spotproviders.sse_spot_provider import SSESpotProvider
@@ -18,9 +19,16 @@ class WWBOTA(SSESpotProvider):
# n-fer activations.
refs = []
ref_names = []
ref_urls = []
for ref in source_spot["references"]:
refs.append(ref["reference"])
ref_names.append(ref["name"])
# Bunkerbase URLs only work for UK bunkers, so only add a URL if we have a B/G prefix. In theory this could
# lead to array alignment mismatches if there was e.g. a B/F bunker followed by a B/G one, we'd end up with
# the B/G URL in index 0. But in practice there are no overlaps between B/G bunkers and any others, so an
# activation will either be entirely B/G or not B/G at all.
if ref["reference"].startswith("B/G"):
ref_urls.append("https://bunkerwiki.org/?s=" + ref["reference"])
spot = Spot(source=self.name,
dx_call=source_spot["call"].upper(),
@@ -31,7 +39,7 @@ class WWBOTA(SSESpotProvider):
sig="WWBOTA",
sig_refs=refs,
sig_refs_names=ref_names,
icon="radiation",
icon=get_icon_for_sig("WWBOTA"),
time=datetime.fromisoformat(source_spot["time"]).timestamp(),
# WWBOTA spots can contain multiple references for bunkers being activated simultaneously. For
# now, we will just pick the first one to use as our grid, latitude and longitude.

4
spotproviders/wwff.py
View File

@@ -2,6 +2,7 @@ from datetime import datetime
import pytz
from core.sig_utils import get_icon_for_sig
from data.spot import Spot
from spotproviders.http_spot_provider import HTTPSpotProvider
@@ -29,7 +30,8 @@ class WWFF(HTTPSpotProvider):
sig="WWFF",
sig_refs=[source_spot["reference"]],
sig_refs_names=[source_spot["reference_name"]],
icon="seedling",
sig_refs_urls=["https://wwff.co/directory/?showRef=" + source_spot["reference"]],
icon=get_icon_for_sig("WWFF"),
time=datetime.fromtimestamp(source_spot["spot_time"], tz=pytz.UTC).timestamp(),
dx_latitude=source_spot["latitude"],
dx_longitude=source_spot["longitude"])

59
spotproviders/zlota.py Normal file
View File

@@ -0,0 +1,59 @@
import csv
import logging
import re
from datetime import datetime, timedelta
import pytz
from requests_cache import CachedSession
from core.constants import HTTP_HEADERS
from core.sig_utils import get_icon_for_sig
from data.spot import Spot
from spotproviders.http_spot_provider import HTTPSpotProvider
# Spot provider for ZLOTA
class ZLOTA(HTTPSpotProvider):
POLL_INTERVAL_SEC = 120
SPOTS_URL = "https://ontheair.nz/api/spots?zlota_only=true"
LIST_URL = "https://ontheair.nz/assets/assets.json"
LIST_CACHE_TIME_DAYS = 30
LIST_CACHE = CachedSession("cache/zlota_data_cache", expire_after=timedelta(days=LIST_CACHE_TIME_DAYS))
def __init__(self, provider_config):
super().__init__(provider_config, self.SPOTS_URL, self.POLL_INTERVAL_SEC)
def http_response_to_spots(self, http_response):
new_spots = []
# Iterate through source data
for source_spot in http_response.json():
# Frequency is often inconsistent as to whether it's in Hz or kHz. Make a guess.
freq_hz = float(source_spot["frequency"])
if freq_hz < 1000000:
freq_hz = freq_hz * 1000
# Convert to our spot format
spot = Spot(source=self.name,
source_id=source_spot["id"],
dx_call=source_spot["activator"].upper(),
de_call=source_spot["spotter"].upper(),
freq=freq_hz,
mode=source_spot["mode"].upper().strip(),
comment=source_spot["comments"],
sig="ZLOTA",
sig_refs=[source_spot["reference"]],
sig_refs_names=[source_spot["name"]],
icon=get_icon_for_sig("ZLOTA"),
time=datetime.fromisoformat(source_spot["referenced_time"]).astimezone(pytz.UTC).timestamp())
# ZLOTA name/lat/lon lookup
zlota_data = self.LIST_CACHE.get(self.LIST_URL, headers=HTTP_HEADERS).json()
for asset in zlota_data:
if asset["code"] == spot.sig_refs[0]:
spot.sig_refs_names = [asset["name"]]
spot.dx_latitude = asset["y"]
spot.dx_longitude = asset["x"]
break
new_spots.append(spot)
return new_spots

2
views/webpage_about.tpl
View File

@@ -24,6 +24,8 @@
<h4 class="mt-4">Why does this website ask me if I want to install it?</h4>
<p>Spothole is a Progressive Web App, which means you can install it on an Android or iOS device by opening the site in Chrome or Safari respectively, and clicking "Install" on the pop-up panel. It'll only prompt you once, so if you dismiss the prompt and change your mind, you'll find an Install / Add to Home Screen option on your browser's menu.</p>
<p>Installing Spothole on your phone is completely optional, the website works exactly the same way as the "app" does.</p>
<h4 class="mt-4">Why hasn't my spot/alert shown up yet?</h4>
<p>To avoid putting too much load on the various servers that Spothole connects to, the Spothole server only polls them once every two minutes for spots, and once every hour for alerts. (Some sources, such as DX clusters, RBN, APRS-IS and WWBOTA use a non-polling mechanism, and their updates will therefore arrive more quickly.) Then if you are using the web interface, that has its own rate at which it reloads the data from Spothole, which is once a minute for spots or 30 minutes for alerts. So you could be waiting around three minutes to see a newly added spot, or 90 minutes to see a newly added alert.</p>
<h4 class="mt-4">What licence does Spothole use?</h4>
<p>Spothole's source code is licenced under the Public Domain. You can write a Spothole client, run your own server, modify it however you like, you can claim you wrote it and charge people £1000 for a copy, I don't really mind. (Please don't do the last one. But if you're using my code for something cool, it would be nice to hear from you!)</p>
<h2 id="privacy" class="mt-4">Privacy</h2>

117
views/webpage_bands.tpl Normal file
View File

@@ -0,0 +1,117 @@
% rebase('webpage_base.tpl')
<div class="mt-3">
<div class="row">
<div class="col-auto me-auto pt-3">
<p id="timing-container">Loading...</p>
</div>
<div class="col-auto">
<p class="d-inline-flex gap-1">
<button id="filters-button" type="button" class="btn btn-outline-primary" data-bs-toggle="button" onclick="toggleFiltersPanel();"><i class="fa-solid fa-filter"></i> Filters</button>
<button id="display-button" type="button" class="btn btn-outline-primary" data-bs-toggle="button" onclick="toggleDisplayPanel();"><i class="fa-solid fa-desktop"></i> Display</button>
</p>
</div>
</div>
<div id="filters-area" class="appearing-panel card mb-3">
<div class="card-header text-white bg-primary">
<div class="row">
<div class="col-auto me-auto">
Filters
</div>
<div class="col-auto d-inline-flex">
<button id="close-filters-button" type="button" class="btn-close btn-close-white" aria-label="Close" onclick="closeFiltersPanel();"></button>
</div>
</div>
</div>
<div class="card-body">
<div class="row row-cols-1 g-4 mb-4">
<div class="col">
<div class="card">
<div class="card-body">
<h5 class="card-title">Bands</h5>
<p id="band-options" class="card-text spothole-card-text"></p>
</div>
</div>
</div>
</div>
<div class="row row-cols-1 row-cols-md-4 g-4">
<div class="col">
<div class="card">
<div class="card-body">
<h5 class="card-title">DX Continent</h5>
<p id="dx-continent-options" class="card-text spothole-card-text"></p>
</div>
</div>
</div>
<div class="col">
<div class="card">
<div class="card-body">
<h5 class="card-title">DE Continent</h5>
<p id="de-continent-options" class="card-text spothole-card-text"></p>
</div>
</div>
</div>
<div class="col">
<div class="card">
<div class="card-body">
<h5 class="card-title">Modes</h5>
<p id="mode-options" class="card-text spothole-card-text"></p>
</div>
</div>
</div>
<div class="col">
<div class="card">
<div class="card-body">
<h5 class="card-title">Sources</h5>
<p id="source-options" class="card-text spothole-card-text"></p>
</div>
</div>
</div>
</div>
</div>
</div>
<div id="display-area" class="appearing-panel card mb-3">
<div class="card-header text-white bg-primary">
<div class="row">
<div class="col-auto me-auto">
Display
</div>
<div class="col-auto d-inline-flex">
<button id="close-display-button" type="button" class="btn-close btn-close-white" aria-label="Close" onclick="closeDisplayPanel();"></button>
</div>
</div>
</div>
<div class="card-body">
<div id="display-container" class="row row-cols-1 row-cols-md-4 g-4">
<div class="col">
<div class="card">
<div class="card-body">
<h5 class="card-title">Spot Age</h5>
<p class="card-text spothole-card-text">Last
<select id="max-spot-age" class="storeable-select form-select ms-2 me-2 d-inline-block" oninput="filtersUpdated();" style="width: 5em; display: inline-block;">
<option value="300">5</option>
<option value="600">10</option>
<option value="1800" selected>30</option>
<option value="3600">60</option>
</select>
minutes
</p>
</div>
</div>
</div>
</div>
</div>
</div>
<div id="bands-container"></div>
</div>
<script src="/js/common.js"></script>
<script src="/js/spotandmap.js"></script>
<script src="/js/bands.js"></script>
<script>$(document).ready(function() { $("#nav-link-bands").addClass("active"); }); <!-- highlight active page in nav --></script>

14
views/webpage_base.tpl
View File

@@ -31,6 +31,7 @@
<link href="/fa/css/solid.min.css" rel="stylesheet" />
<link rel="icon" type="image/png" href="/img/icon-512.png">
<link rel="apple-touch-icon" href="img/icon-512-pwa.png">
<link rel="alternate icon" type="image/png" href="/img/icon-192.png">
<link rel="alternate icon" type="image/png" href="/img/icon-32.png">
<link rel="alternate icon" type="image/png" href="/img/icon-16.png">
@@ -57,12 +58,13 @@
</button>
<div class="collapse navbar-collapse" id="navbarTogglerDemo02">
<ul class="navbar-nav me-auto mb-2 mb-lg-0">
<li class="nav-item ms-4"><a href="/" class="nav-link" id="nav-link-spots">Spots</a></li>
<li class="nav-item ms-4"><a href="/map" class="nav-link" id="nav-link-map">Map</a></li>
<li class="nav-item ms-4"><a href="/alerts" class="nav-link" id="nav-link-alerts">Alerts</a></li>
<li class="nav-item ms-4"><a href="/status" class="nav-link" id="nav-link-status">Status</a></li>
<li class="nav-item ms-4"><a href="/about" class="nav-link" id="nav-link-about">About</a></li>
<li class="nav-item ms-4"><a href="/apidocs" class="nav-link" id="nav-link-api">API</a></li>
<li class="nav-item ms-4"><a href="/" class="nav-link" id="nav-link-spots"><i class="fa-solid fa-tower-cell"></i> Spots</a></li>
<li class="nav-item ms-4"><a href="/map" class="nav-link" id="nav-link-map"><i class="fa-solid fa-map"></i> Map</a></li>
<li class="nav-item ms-4"><a href="/bands" class="nav-link" id="nav-link-bands"><i class="fa-solid fa-ruler-vertical"></i> Bands</a></li>
<li class="nav-item ms-4"><a href="/alerts" class="nav-link" id="nav-link-alerts"><i class="fa-solid fa-bell"></i> Alerts</a></li>
<li class="nav-item ms-4"><a href="/status" class="nav-link" id="nav-link-status"><i class="fa-solid fa-chart-simple"></i> Status</a></li>
<li class="nav-item ms-4"><a href="/about" class="nav-link" id="nav-link-about"><i class="fa-solid fa-circle-info"></i> About</a></li>
<li class="nav-item ms-4"><a href="/apidocs" class="nav-link" id="nav-link-api"><i class="fa-solid fa-gear"></i> API</a></li>
</ul>
</div>
</div>

4
views/webpage_spots.tpl
View File

@@ -154,8 +154,8 @@
<label class="form-check-label" for="tableShowBearing">Bearing</label>
</div>
<div class="form-check form-check-inline">
<input class="form-check-input storeable-checkbox" type="checkbox" id="tableShowSource" value="tableShowSource" oninput="columnsUpdated();" checked>
<label class="form-check-label" for="tableShowSource">Source</label>
<input class="form-check-input storeable-checkbox" type="checkbox" id="tableShowType" value="tableShowType" oninput="columnsUpdated();" checked>
<label class="form-check-label" for="tableShowType">Type</label>
</div>
<div class="form-check form-check-inline">
<input class="form-check-input storeable-checkbox" type="checkbox" id="tableShowRef" value="tableShowRef" oninput="columnsUpdated();" checked>

119
webassets/apidocs/openapi.yml
View File

@@ -65,7 +65,7 @@ paths:
- APRS-IS
- name: sig
in: query
description: "Limit the spots to only ones from one or more Special Interest Groups. To select more than one SIG, supply a comma-separated list."
description: "Limit the spots to only ones from one or more Special Interest Groups provided as an argument. To select more than one SIG, supply a comma-separated list."
required: false
schema:
type: string
@@ -76,6 +76,27 @@ paths:
- WWBOTA
- GMA
- HEMA
- WCA
- MOTA
- SiOTA
- ARLHS
- ILLW
- ZLOTA
- IOTA
- name: needs_sig
in: query
description: "Limit the spots to only ones with a Special Interest Group such as POTA. Because supplying all known SIGs as a `sigs` parameter is unwieldy, and leaving `sigs` blank will also return spots with *no* SIG, this parameter can be set true to return only spots with a SIG, regardless of what it is, so long as it's not blank. This is what Field Spotter uses to exclude generic cluster spots and only retrieve xOTA things."
required: false
schema:
type: boolean
default: false
- name: needs_sig_ref
in: query
description: "Limit the spots to only ones which have at least one reference (e.g. a park reference) for Special Interest Groups such as POTA."
required: false
schema:
type: boolean
default: false
- name: band
in: query
description: "Limit the spots to only ones from one or more bands. To select more than one band, supply a comma-separated list."
@@ -168,6 +189,33 @@ paths:
- AF
- OC
- AN
- name: dedupe
in: query
description: "\"De-duplicate\" the spots, returning only the latest spot for any given callsign."
required: false
schema:
type: boolean
default: false
- name: comment_includes
in: query
description: "Return only spots where the comment includes the provided string (case-insensitive)."
required: false
schema:
type: string
- name: needs_good_location
in: query
description: "Return only spots with a 'good' location. (See the spot `dx_location_good` parameter for details. Useful for map-based clients, to avoid spots with 'bad' locations e.g. loads of cluster spots ending up in the centre of the DXCC entitity.)"
required: false
schema:
type: boolean
default: false
- name: allow_qrt
in: query
description: Allow spots that are known to be QRT to be returned.
required: false
schema:
type: boolean
default: true
responses:
'200':
description: Success
@@ -241,6 +289,13 @@ paths:
- WWBOTA
- GMA
- HEMA
- WCA
- MOTA
- SiOTA
- ARLHS
- ILLW
- ZLOTA
- IOTA
- name: dx_continent
in: query
description: "Limit the alerts to only ones where the DX (the operator being spotted) is on the given continent(s). To select more than one continent, supply a comma-separated list."
@@ -379,8 +434,7 @@ paths:
type: array
description: An array of all the supported Special Interest Groups.
items:
type: string
example: "POTA"
$ref: '#/components/schemas/SIG'
sources:
type: array
description: An array of all the supported data sources.
@@ -518,13 +572,14 @@ components:
description: Where we got the DX location (grid/latitude/longitude) from. If this was from the spot itself, it's likely quite accurate, but if we had to fall back to QRZ lookup, or even a location based on the DXCC itself, it will be a lot less accurate.
enum:
- SPOT
- "WAB/WAI GRID"
- QRZ
- DXCC
- NONE
example: SPOT
dx_location_good:
type: boolean
description: Does the software think the location is good enough to put a marker on a map? This is true if the source is "SPOT", or alternatively if the source is "QRZ" and the callsign doesn't have a slash in it (i.e. operator likely at home).
description: Does the software think the location is good enough to put a marker on a map? This is true if the source is "SPOT" or "WAB/WAI GRID", or alternatively if the source is "QRZ" and the callsign doesn't have a slash in it (i.e. operator likely at home).
example: true
de_call:
type: string
@@ -667,6 +722,13 @@ components:
- WWBOTA
- GMA
- HEMA
- WCA
- MOTA
- SiOTA
- ARLHS
- ILLW
- ZLOTA
- IOTA
example: POTA
sig_refs:
type: array
@@ -680,6 +742,12 @@ components:
type: string
description: SIG reference names
example: Null Country Park
sig_refs_urls:
type: array
items:
type: string
description: SIG reference URLs, which the user can look up for more information
example: "https://pota.app/#/park/GB-0001"
activation_score:
type: integer
description: Activation score. SOTA only
@@ -688,6 +756,14 @@ components:
type: string
descripton: Icon, from the Font Awesome set. This is fairly opinionated but is here to help the Spothole web UI and Field Spotter. Does not include the "fa-" prefix.
example: tree
band_color:
type: string
descripton: Colour to represent this spot, if a client chooses to colour spots based on their frequency band, using PSK Reporter's default colours. HTML colour e.g. hex.
example: #ff0000"
band_contrast_color:
type: string
descripton: Black or white, whichever best contrasts with "band_color".
example: "white"
qrt:
type: boolean
description: QRT state. Some APIs return spots marked as QRT. Otherwise we can check the comments.
@@ -806,6 +882,13 @@ components:
- WWBOTA
- GMA
- HEMA
- WCA
- MOTA
- SiOTA
- ARLHS
- ILLW
- ZLOTA
- IOTA
example: POTA
sig_refs:
type: array
@@ -827,14 +910,6 @@ components:
type: string
descripton: Icon, from the Font Awesome set. This is fairly opinionated but is here to help the Spothole web UI and Field Spotter. Does not include the "fa-" prefix.
example: tree
band_color:
type: string
descripton: Colour to represent this spot, if a client chooses to colour spots based on their frequency band, using PSK Reporter's default colours. HTML colour e.g. hex.
example: #ff0000"
band_contrast_color:
type: string
descripton: Black or white, whichever best contrasts with "band_color".
example: "white"
source:
type: string
description: Where we got the alert from.
@@ -922,3 +997,23 @@ components:
type: string
description: Black or white, whichever provides the best contrast against the band colour.
example: white
SIG:
type: object
properties:
name:
type: string
description: The abbreviated name of the SIG
example: POTA
description:
type: string
description: The full name of the SIG
example: Parks on the Air
icon:
type: string
description: Icon, from the Font Awesome set. This is fairly opinionated but is here to help the Spothole web UI and Field Spotter. Does not include the "fa-" prefix.
example: tree
ref_regex:
type: string
description: Regex that matches this SIG's reference IDs. Generally for Spothole's own internal use, clients probably won't need this.
example: "[A-Z]{2}\\-\\d+"

108
webassets/css/style.css
View File

@@ -92,10 +92,13 @@ span.icon-wrapper {
}
span.freq-mhz {
font-weight: bold;
}
span.freq-mhz-pad {
display: inline-block;
min-width: 1.7em;
text-align: right;
font-weight: bold;
}
span.freq-khz {
@@ -117,6 +120,10 @@ a.dx-link {
text-decoration: none;
font-weight: bold;
}
a.sig-ref-link {
color: var(--bs-emphasis-color);
text-decoration: none;
}
/* QRT/faded styles */
tr.table-faded td {
@@ -142,10 +149,99 @@ div#map {
font-family: var(--bs-body-font-family) !important;
}
a.leaflet-popup-callsign-link {
color: black;
/* BANDS PANEL */
div#bands-container {
min-height: 64em;
margin: 0;
padding: 0;
overflow-x: auto;
white-space: nowrap;
overscroll-behavior-x: none;
}
#bands-table {
min-width: 100%;
}
#bands-table th {
width: 20%;
max-height: 40px;
min-width: 12em;
padding: 0.5em;
text-align: center;
font-weight: bold;
text-decoration: none;
}
#bands-table td {
width: 20%;
min-width: 12em;
height: 62em;
}
div.band-container {
height: 62em;
width: 20%;
min-width: 12em;
position: relative;
}
div.band-markers {
width: 100%;
height: 100%;
position: absolute;
top: 0;
left: 0;
z-index: 13;
border-left: 2px dotted black;
}
div.band-spots {
width: 100%;
height: 100%;
position: absolute;
top: 0;
left: 0;
z-index: 15;
}
canvas.band-lines-canvas {
width: 5em;
height: 100%;
position: absolute;
top: 0;
left: 0;
z-index: 11;
}
div.band-spot {
position: absolute;
left: 5em;
padding: 0 0.25em;
background-color: white;
border-radius: 3px;
cursor: default;
}
div.band-spot:hover {
z-index: 999;
}
div.band-spot span.band-spot-call {
display: inline;
}
div.band-spot:hover span.band-spot-call {
display: none;
}
div.band-spot span.band-spot-info {
display: none;
}
div.band-spot:hover span.band-spot-info {
display: inline;
}
@@ -155,6 +251,10 @@ a.leaflet-popup-callsign-link {
.hideonmobile {
display: none !important;
}
div#map, div#table-container, div#bands-container {
margin-left: -1em;
margin-right: -1em;
}
}
@media (min-width: 992px) {

24
webassets/js/alerts.js
View File

@@ -124,16 +124,12 @@ function addAlertRowsToTable(tbody, alerts) {
var showRef = $("#tableShowRef")[0].checked;
// Get times for the alert, and convert to local time if necessary.
var start_time_unix = moment.unix(a["start_time"]);
var start_time = start_time_unix.utc();
if (useLocalTime) {
start_time = start_time.local();
}
var end_time_unix = moment.unix(a["end_time"]);
var end_time = end_time_unix.utc();
if (useLocalTime) {
end_time = end_time.local();
}
var start_time_utc = moment.unix(a["start_time"]).utc();
var start_time_local = start_time_utc.clone().local();
start_time = useLocalTime ? start_time_local : start_time_utc;
var end_time_utc = moment.unix(a["end_time"]).utc();
var end_time_local = end_time_utc.clone().local();
end_time = useLocalTime ? end_time_local : end_time_utc;
// Format the times for display. Start time is displayed as e.g. 7 Oct 12:34 unless the time is in a
// different year to the current year, in which case the year is inserted between month and hour.
@@ -143,8 +139,8 @@ function addAlertRowsToTable(tbody, alerts) {
// Overriding all of that, if the start time is 00:00 and the end time is 23:59 when considered in UTC, the
// hours and minutes are stripped out from the display, as we assume the server is just giving us full days.
// Finally, if there is no end date set, "---" is displayed.
var whole_days = start_time_unix.utc().format("HH:mm") == "00:00" &&
(end_time_unix != null || end_time_unix > 0 || end_time_unix.utc().format("HH:mm") == "23:59");
var whole_days = start_time_utc.format("HH:mm") == "00:00" &&
(end_time_utc != null || end_time_utc > 0 || end_time_utc.format("HH:mm") == "23:59");
var hours_minutes_format = whole_days ? "" : " HH:mm";
var start_time_formatted = start_time.format("D MMM" + hours_minutes_format);
if (start_time.format("YYYY") != moment().format("YYYY")) {
@@ -153,11 +149,13 @@ function addAlertRowsToTable(tbody, alerts) {
start_time_formatted = start_time.format("[Today]" + hours_minutes_format);
}
var end_time_formatted = "---";
if (end_time_unix != null && end_time_unix > 0 && end_time != null) {
if (end_time_utc != null && end_time_utc > 0 && end_time != null) {
var end_time_formatted = whole_days ? start_time_formatted : end_time.format("HH:mm");
if (end_time.format("D MMM") != start_time.format("D MMM")) {
if (end_time.format("YYYY") != moment().format("YYYY")) {
end_time_formatted = end_time.format("D MMM YYYY" + hours_minutes_format);
} else if (useLocalTime && end_time.format("D MMM YYYY") == moment().format("D MMM YYYY")) {
end_time_formatted = end_time.format("[Today]" + hours_minutes_format);
} else {
end_time_formatted = end_time.format("D MMM" + hours_minutes_format);
}

286
webassets/js/bands.js Normal file
View File

@@ -0,0 +1,286 @@
// A couple of constants that must match what's in CSS. We need to know them before the content actually renders, so we
// can't just ask the elements themselves for their dimensions.
BAND_COLUMN_HEIGHT_EM = 62;
BAND_COLUMN_CANVAS_WIDTH_EM = 4;
BAND_COLUMN_FONT_SIZE = 16;
BAND_COLUMN_HEIGHT_PX = BAND_COLUMN_HEIGHT_EM * BAND_COLUMN_FONT_SIZE;
BAND_COLUMN_CANVAS_WIDTH_PX = BAND_COLUMN_CANVAS_WIDTH_EM * BAND_COLUMN_FONT_SIZE;
BAND_COLUMN_SPOT_DIV_HEIGHT_PX = BAND_COLUMN_FONT_SIZE * 1.6;
// Load spots and populate the bands display.
function loadSpots() {
$.getJSON('/api/v1/spots' + buildQueryString(), function(jsonData) {
// Store last updated time
lastUpdateTime = moment.utc();
updateRefreshDisplay();
// Store data
spots = jsonData;
// Update bands display
updateBands();
});
}
// Build a query string for the API, based on the filters that the user has selected.
function buildQueryString() {
var str = "?";
["dx_continent", "de_continent", "mode_type", "source", "band"].forEach(fn => {
if (!allFilterOptionsSelected(fn)) {
str = str + getQueryStringFor(fn) + "&";
}
});
str = str + "max_age=" + $("#max-spot-age option:selected").val();
// Additional filters for the bands view: No dupes, no QRT
str = str + "&dedupe=true&allow_qrt=false";
return str;
}
// Update the bands display
function updateBands() {
// Stop here if nothing to display
var bandsContainer = $("#bands-container");
if (spots.length === 0) {
bandsContainer.html("<div class='alert alert-danger' role='alert'>No spots match your filters.</div>");
return;
}
// Do some harsher de-duping. Because we only display callsign, frequency and mode here, the previous
// de-duplication could have let some through that don't look like dupes on the map, but would do here.
// Typically that's a person activating two programs at the same time, e.g. POTA & WWFF.
spotList = removeDuplicatesForBandPanel(spots);
// Convert to a map of band names to the spots on that band. Bands with no
// spots in view will not be present.
const bandToSpots = new Map();
options["bands"].forEach(function (band) {
const matchingSpots = spotList.filter(function (s) {
return s.band === band.name;
});
if (matchingSpots.length > 0) {
bandToSpots.set(band.name, matchingSpots);
}
});
// Track if any columns end up taller than expected, so we can resize the container and avoid vertical scroll.
var maxHeightBand = 0;
// Build up table content for each band
var table = $('<table id="bands-table">').append('<thead><tr></tr></thead><tbody><tr></tr></tbody>');
bandToSpots.forEach(function (spotList, bandName) {
// Get the colours for the band from the first spot, and prepare the header
table.find('thead tr').append(`<th style='background-color:${spotList[0].band_color}; color:${spotList[0].band_contrast_color}'>${spotList[0].band}</th>`);
// Get the band data to fetch start and end frequencies
let band = options["bands"].filter(function (b) {
return b.name === bandName;
})[0];
// Print the frequency band markers. This is 41 steps to divide the band evenly into 40 markers. One in every
// four will show the actual frequency, the others will just be dashes.
bandMarkersDiv = $('<div class="band-markers">');
const freqStep = (band.end_freq - band.start_freq) / 40.0;
for (let i = 0; i <= 40; i++) {
if (i % 4 === 0) {
bandMarkersDiv.append("&mdash;" + ((band.start_freq + i * freqStep)/1000000).toFixed(3) + "<br/>");
} else if (i % 4 === 2) {
bandMarkersDiv.append("&ndash;<br/>");
} else {
bandMarkersDiv.append("-<br/>");
}
}
// Prepare the spots list
var bandSpotsDiv = $("<div class='band-spots'>");
var lastSpotPxDownBand = -999;
// Sort by frequency so have a consistent order in which to plan where they will appear on the band div.
spotList.sort(function(a, b) { return a.freq - b.freq; });
// First calculate how we should be displaying the spots. There are three "modes" to try to place them in a
// visually appealing way:
// 1) Spaced normally, not going over the end of the band, so we populate them forwards.
// 2) Would go over the end, but the spots don't fill the band, so we populate them backwards.
// 3) Spots totally fill the band (or more), so we space them evenly starting at the top.
// In each case, we don't add anything to the DOM yet, we just calculate "pxDownBandLabel" (how far the *top* of
// the label is from the top of the div) and add that as a property to the spot for later use.
if (spotList.length >= BAND_COLUMN_HEIGHT_PX / BAND_COLUMN_SPOT_DIV_HEIGHT_PX) {
// Mode 3.
// Just lay out all spots simply, starting at 0px offset and working down with each one touching.
lastSpotPxDownBand = 0 - BAND_COLUMN_SPOT_DIV_HEIGHT_PX;
spotList.forEach(s => {
lastSpotPxDownBand = lastSpotPxDownBand + BAND_COLUMN_SPOT_DIV_HEIGHT_PX;
s["pxDownBandLabel"] = lastSpotPxDownBand;
});
} else {
// Mode 1 or 2. Run through adding things to the list forwards as a test.
spotList.forEach(s => {
// Work out how far down the div to draw it
var percentDownBand = (s.freq - band.start_freq) / (band.end_freq - band.start_freq) * 0.97; // not 100% due to fudge, the first and last dashes are not exactly at the top and bottom of the div as some space is needed for text
var pxDownBand = percentDownBand * BAND_COLUMN_HEIGHT_PX;
if (pxDownBand < lastSpotPxDownBand + BAND_COLUMN_SPOT_DIV_HEIGHT_PX) {
pxDownBand = lastSpotPxDownBand + BAND_COLUMN_SPOT_DIV_HEIGHT_PX; // Prevent overlap
}
s["pxDownBandLabel"] = pxDownBand;
lastSpotPxDownBand = pxDownBand;
});
// Work out if we overflowed the end.
if (lastSpotPxDownBand <= BAND_COLUMN_HEIGHT_PX) {
// Mode 1. Current positions are fine and there's nothing to do.
} else {
// Mode 2. Repeat the process but backwards, starting at the end and working upwards.
lastSpotPxDownBand = 999999;
spotList.reverse().forEach(s => {
// Work out how far down the div to draw it
var percentDownBand = (s.freq - band.start_freq) / (band.end_freq - band.start_freq) * 0.97; // not 100% due to fudge, the first and last dashes are not exactly at the top and bottom of the div as some space is needed for text
var pxDownBand = percentDownBand * BAND_COLUMN_HEIGHT_PX;
if (pxDownBand > lastSpotPxDownBand - BAND_COLUMN_SPOT_DIV_HEIGHT_PX) {
pxDownBand = lastSpotPxDownBand - BAND_COLUMN_SPOT_DIV_HEIGHT_PX; // Prevent overlap
}
s["pxDownBandLabel"] = pxDownBand;
lastSpotPxDownBand = pxDownBand;
});
}
}
// Now each spot is tagged with how far down the div it should go, add them to the DOM.
spotList.forEach(s => {
bandSpotsDiv.append(`<div class="band-spot" style="top: ${s['pxDownBandLabel']}px; border-top: 1px solid ${s.band_color}; border-left: 5px solid ${s.band_color}; border-bottom: 1px solid ${s.band_color}; border-right: 1px solid ${s.band_color};"><span class="band-spot-call">${s.dx_call}</span><span class="band-spot-info">${s.dx_call} ${(s.freq/1000000).toFixed(3)} ${s.mode}</span></div>`);
});
// Work out how tall the canvas should be. Normally this is matching the normal band column height, but if some
// spots have gone off the end of the band markers and stretched their div, we need to resize the canvas to
// match, otherwise we have nowhere to draw their connecting lines.
var canvasHeight = Math.max(BAND_COLUMN_HEIGHT_PX, lastSpotPxDownBand + BAND_COLUMN_SPOT_DIV_HEIGHT_PX);
maxHeightBand = Math.max(maxHeightBand, canvasHeight);
// Draw horizontal or diagonal lines to join up the "real" frequency with where the spot div ended up
var bandLinesCanvas = $(`<canvas class='band-lines-canvas' width='${BAND_COLUMN_CANVAS_WIDTH_PX}px' height='${canvasHeight}px' style='height:${canvasHeight}px !important;'>`);
spotList.forEach(s => {
// Work out how far down the div to draw it
var percentDownBand = (s.freq - band.start_freq) / (band.end_freq - band.start_freq) * 0.97; // not 100% due to fudge, the first and last dashes are not exactly at the top and bottom of the div as some space is needed for text
var pxDownBandFreq = (percentDownBand + 0.015) * BAND_COLUMN_HEIGHT_PX; // same fudge but add half to put the left end of the line in the right place
var pxDownBandLabel = s["pxDownBandLabel"] + (BAND_COLUMN_SPOT_DIV_HEIGHT_PX / 1.75); // line should be to the vertical text-centre spot, not to the top corner
// Draw the line on the canvas
var ctx = bandLinesCanvas[0].getContext('2d');
ctx.beginPath();
ctx.lineWidth = 2;
ctx.lineCap = "round";
ctx.strokeStyle = s.band_color;
ctx.moveTo(0, pxDownBandFreq);
ctx.lineTo(BAND_COLUMN_CANVAS_WIDTH_PX, pxDownBandLabel);
ctx.stroke();
});
// Assemble the table cell
td = $("<td>");
container = $("<div class='band-container'>");
container.append(bandLinesCanvas);
container.append(bandMarkersDiv);
container.append(bandSpotsDiv);
td.append(container);
table.find('tbody tr').append(td);
});
// Update the DOM with the band HTML
bandsContainer.html(table);
// Increase the height of the bands container so we don't have any vertical scroll bars except the browser ones
bandsContainer.css("min-height", `${maxHeightBand + 42}px`);
// Desktop mouse wheel to scroll bands horizontally if used on the headers
table.find('thead tr').on("wheel", () => {
bandsContainer.scrollLeft(bandsContainer.scrollLeft() + event.deltaY / 10.0);
return false;
});
}
// Iterate through a temporary list of spots, merging duplicates in a way suitable for the band panel. If two or more
// spots with the activator, mode and frequency are found, these will be merged and reduced until only one remains,
// with the best data. Note that unlike removeDuplicates(), which operates on the main spot map, this operates only
// on the temporary array of spots provided as an argument, and returns the output, for use when constructing the
// band panel.
function removeDuplicatesForBandPanel(spotList) {
const spotsToRemove = [];
spotList.forEach(function (check) {
spotList.forEach(function (s) {
if (s !== check) {
if (s.dx_call === check.dx_call && s.freq === check.freq && s.mode === check.mode) {
// Find which one to keep and which to delete
const checkSpotNewer = check.time > s.time;
const keepSpot = checkSpotNewer ? check : s;
const deleteSpot = checkSpotNewer ? s : check;
// Aggregate list of spots to remove
spotsToRemove.push(deleteSpot.uid);
}
}
});
});
// Perform the removal
return spotList.filter(s => !spotsToRemove.includes(s.uid));
}
// Load server options. Once a successful callback is made from this, we then query spots and set up the timer to query
// spots repeatedly.
function loadOptions() {
$.getJSON('/api/v1/options', function(jsonData) {
// Store options
options = jsonData;
// Add CSS for band toggle buttons
addBandToggleColourCSS(options["bands"]);
// Populate the filters panel
generateBandsMultiToggleFilterCard(options["bands"]);
generateMultiToggleFilterCard("#dx-continent-options", "dx_continent", options["continents"]);
generateMultiToggleFilterCard("#de-continent-options", "de_continent", options["continents"]);
generateMultiToggleFilterCard("#mode-options", "mode_type", options["mode_types"]);
generateMultiToggleFilterCard("#source-options", "source", options["spot_sources"]);
// Load settings from settings storage now all the controls are available
loadSettings();
// Load spots and set up the timer
loadSpots();
setInterval(loadSpots, REFRESH_INTERVAL_SEC * 1000);
});
}
// Method called when any display property is changed to reload the map and persist the display settings.
function displayUpdated() {
updateMap();
saveSettings();
}
// React to toggling/closing panels
function toggleFiltersPanel() {
// If we are going to show the filters panel, hide the display panel
if (!$("#filters-area").is(":visible") && $("#display-area").is(":visible")) {
$("#display-area").hide();
$("#display-button").button("toggle");
}
$("#filters-area").toggle();
}
function closeFiltersPanel() {
$("#filters-button").button("toggle");
$("#filters-area").hide();
}
function toggleDisplayPanel() {
// If we are going to show the display panel, hide the filters panel
if (!$("#display-area").is(":visible") && $("#filters-area").is(":visible")) {
$("#filters-area").hide();
$("#filters-button").button("toggle");
}
$("#display-area").toggle();
}
function closeDisplayPanel() {
$("#display-button").button("toggle");
$("#display-area").hide();
}
// Startup
$(document).ready(function() {
// Call loadOptions(), this will then trigger loading spots and setting up timers.
loadOptions();
// Update the refresh timing display every second
setInterval(updateRefreshDisplay, 1000);
});

36
webassets/js/map.js
View File

@@ -3,7 +3,7 @@ var markersLayer;
var geodesicsLayer;
var terminator;
// Load spots and populate the table.
// Load spots and populate the map.
function loadSpots() {
$.getJSON('/api/v1/spots' + buildQueryString(), function(jsonData) {
// Store data
@@ -23,6 +23,8 @@ function buildQueryString() {
}
});
str = str + "max_age=" + $("#max-spot-age option:selected").val();
// Additional filters for the map view: No dupes, no QRT, only spots with good locations
str = str + "&dedupe=true&allow_qrt=false&needs_good_location=true";
return str;
}
@@ -32,13 +34,8 @@ function updateMap() {
markersLayer.clearLayers();
geodesicsLayer.clearLayers();
// Make new markers for all spots with a good location, not QRT, and not a duplicate spot within the data set.
var callsAlreadyDisplayed = [];
// Make new markers for all spots that match the filter
spots.forEach(function (s) {
if (s["dx_location_good"] && (s["qrt"] == null || s["qrt"] == false)) {
if (!callsAlreadyDisplayed.includes(s["dx_call"])) {
// OK, create the marker
var m = L.marker([s["dx_latitude"], s["dx_longitude"]], {icon: getIcon(s)});
m.bindPopup(getTooltipText(s));
markersLayer.addLayer(m);
@@ -52,10 +49,6 @@ function updateMap() {
});
geodesicsLayer.addLayer(geodesic);
}
}
callsAlreadyDisplayed.push(s["dx_call"]);
}
});
}
@@ -100,7 +93,13 @@ function getTooltipText(s) {
// Format sig_refs
var sig_refs = "";
if (s["sig_refs"]) {
if (s["sig_refs"] && s["sig_refs_urls"] && s["sig_refs"].length == s["sig_refs_urls"].length) {
items = s["sig_refs"].map(s => `<span class='nowrap'>${s}</span>`)
for (var i = 0; i < items.length; i++) {
items[i] = `<a href='${s["sig_refs_urls"][i]}' target='_new' class='sig-ref-link'>${items[i]}</a>`
}
sig_refs = items.join(", ");
} else if (s["sig_refs"]) {
sig_refs = s["sig_refs"].map(s => `<span class='nowrap'>${s}</span>`).join(", ");
}
@@ -108,10 +107,13 @@ function getTooltipText(s) {
const shortCall = s["dx_call"].split("/").sort(function (a, b) {
return b.length - a.length;
})[0];
ttt = `<span class='nowrap'>${dx_flag} <a href='https://www.qrz.com/db/${shortCall}' target='_blank' class="leaflet-popup-callsign-link">${s["dx_call"]}</a></span><br/>`;
ttt = `<span class='nowrap'><span class='icon-wrapper'>${dx_flag}</span> <a href='https://www.qrz.com/db/${shortCall}' target='_blank' class="dx-link">${s["dx_call"]}</a></span><br/>`;
// Frequency & band
ttt += `<i class='fa-solid fa-walkie-talkie markerPopupIcon'></i>&nbsp;${freq_string} (${s["band"]})`;
ttt += `<span class='icon-wrapper'><i class='fa-solid fa-radio markerPopupIcon'></i></span>&nbsp;${freq_string}`;
if (s["band"] != null) {
ttt += ` (${s["band"]})`;
}
// Mode
if (s["mode"] != null) {
ttt += ` &nbsp;&nbsp; <i class='fa-solid fa-wave-square markerPopupIcon'></i>&nbsp;${s["mode"]}`;
@@ -119,14 +121,14 @@ function getTooltipText(s) {
ttt += "<br/>";
// Source / SIG / Ref
ttt += `<span class='nowrap'><span class='icon-wrapper'><i class='fa-solid fa-${s["icon"]}'></i>&nbsp;${sigSourceText} ${sig_refs}</span><br/>`;
ttt += `<span class='nowrap'><span class='icon-wrapper'><i class='fa-solid fa-${s["icon"]}'></i></span>&nbsp;${sigSourceText} ${sig_refs}</span><br/>`;
// Time
ttt += `<i class='fa-solid fa-clock markerPopupIcon'></i>&nbsp;${moment.unix(s["time"]).fromNow()}`;
ttt += `<span class='icon-wrapper'><i class='fa-solid fa-clock markerPopupIcon'></i></span>&nbsp;${moment.unix(s["time"]).fromNow()}`;
// Comment
if (commentText.length > 0) {
ttt += `<br/><i class='fa-solid fa-comment markerPopupIcon'></i> ${commentText}`;
ttt += `<br/><span class='icon-wrapper'><i class='fa-solid fa-comment markerPopupIcon'></i></span> ${commentText}`;
}
return ttt;

44
webassets/js/spots.js
View File

@@ -38,7 +38,7 @@ function updateTable() {
var showMode = $("#tableShowMode")[0].checked;
var showComment = $("#tableShowComment")[0].checked;
var showBearing = $("#tableShowBearing")[0].checked && userPos != null;
var showSource = $("#tableShowSource")[0].checked;
var showType = $("#tableShowType")[0].checked;
var showRef = $("#tableShowRef")[0].checked;
var showDE = $("#tableShowDE")[0].checked;
@@ -62,8 +62,8 @@ function updateTable() {
if (showBearing) {
table.find('thead tr').append(`<th class='hideonmobile'>Bearing</th>`);
}
if (showSource) {
table.find('thead tr').append(`<th class='hideonmobile'>Source</th>`);
if (showType) {
table.find('thead tr').append(`<th class='hideonmobile'>Type</th>`);
}
if (showRef) {
table.find('thead tr').append(`<th class='hideonmobile'>Ref.</th>`);
@@ -88,7 +88,7 @@ function updateTable() {
// Format a UTC or local time for display
var time = moment.unix(s["time"]).utc();
if (useLocalTime) {
time = time.local();
time.local();
}
var time_formatted = time.format("HH:mm");
@@ -109,7 +109,7 @@ function updateTable() {
var khz = Math.floor((s["freq"] - (mhz * 1000000.0)) / 1000.0);
var hz = Math.floor(s["freq"] - (mhz * 1000000.0) - (khz * 1000.0));
var hz_string = (hz > 0) ? hz.toFixed(0)[0] : "";
var freq_string = `<span class='freq-mhz'>${mhz.toFixed(0)}</span><span class='freq-khz'>${khz.toFixed(0).padStart(3, '0')}</span><span class='freq-hz hideonmobile'>${hz_string}</span>`
var freq_string = `<span class='freq-mhz freq-mhz-pad'>${mhz.toFixed(0)}</span><span class='freq-khz'>${khz.toFixed(0).padStart(3, '0')}</span><span class='freq-hz hideonmobile'>${hz_string}</span>`
// Format the mode
mode_string = s["mode"];
@@ -140,22 +140,22 @@ function updateTable() {
}
}
// Sig or fallback to source
var sigSourceText = s["source"];
// Format "type" (Sig or fallback to source)
var typeText = s["source"];
if (s["sig"]) {
sigSourceText = s["sig"];
typeText = s["sig"];
}
// Format sig_refs
var sig_refs = "";
if (s["sig_refs"]) {
sig_refs = s["sig_refs"].map(s => `<span class='nowrap'>${s}</span>`).join(", ");
if (s["sig_refs"] && s["sig_refs_urls"] && s["sig_refs"].length == s["sig_refs_urls"].length && s["sig_refs"].length == s["sig_refs_names"].length) {
items = s["sig_refs"].map(s => `<span class='nowrap'>${s}</span>`)
for (var i = 0; i < items.length; i++) {
items[i] = `<a href='${s["sig_refs_urls"][i]}' title='${s["sig_refs_names"][i]}' target='_new' class='sig-ref-link'>${items[i]}</a>`
}
// Format sig_refs title
var sig_refs_title_string = "";
if (s["sig_refs_names"]) {
sig_refs_title_string = " title=\"" + s["sig_refs_names"].join(", ") + "\"";
sig_refs = items.join(", ");
} else if (s["sig_refs"]) {
sig_refs = s["sig_refs"].map(s => `<span class='nowrap'>${s}</span>`).join(", ");
}
// Format DE flag
@@ -185,7 +185,7 @@ function updateTable() {
$tr.append(`<td class='nowrap'>${time_formatted}</td>`);
}
if (showDX) {
$tr.append(`<td class='nowrap'><span class='flag-wrapper hideonmobile' title='${dx_country}'>${dx_flag}</span><a class='dx-link' href='https://qrz.com/db/${s["dx_call"]}' target='_new'>${s["dx_call"]}</a></td>`);
$tr.append(`<td class='nowrap'><span class='flag-wrapper hideonmobile' title='${dx_country}'>${dx_flag}</span><a class='dx-link' href='https://qrz.com/db/${s["dx_call"]}' target='_new' title='${s["dx_name"] != null ? s["dx_name"] : ""}'>${s["dx_call"]}</a></td>`);
}
if (showFreq) {
$tr.append(`<td class='nowrap'><span class='band-bullet' title='${bandFullName}' style='color: ${s["band_color"]}'>&#9632;</span>${freq_string}</td>`);
@@ -199,25 +199,25 @@ function updateTable() {
if (showBearing) {
$tr.append(`<td class='nowrap hideonmobile'>${bearingText}</td>`);
}
if (showSource) {
$tr.append(`<td class='nowrap hideonmobile'><span class='icon-wrapper'><i class='fa-solid fa-${s["icon"]}'></i></span> ${sigSourceText}</td>`);
if (showType) {
$tr.append(`<td class='nowrap hideonmobile'><span class='icon-wrapper'><i class='fa-solid fa-${s["icon"]}'></i></span> ${typeText}</td>`);
}
if (showRef) {
$tr.append(`<td class='hideonmobile'><span ${sig_refs_title_string}>${sig_refs}</span></td>`);
$tr.append(`<td class='hideonmobile'>${sig_refs}</td>`);
}
if (showDE) {
$tr.append(`<td class='nowrap hideonmobile'><span class='flag-wrapper' title='${de_country}'>${de_flag}</span>${de_call}</td>`);
}
table.find('tbody').append($tr);
// Second row for mobile view only, containing source, ref & comment
// Second row for mobile view only, containing type, ref & comment
$tr2 = $("<tr class='hidenotonmobile'>");
if (s["qrt"] == true) {
$tr2.addClass("table-faded");
}
$td2 = $("<td colspan='100'>");
if (showSource) {
$td2.append(`<span class='icon-wrapper'><i class='fa-solid fa-${s["icon"]}'></i></span> ${sigSourceText} `);
if (showType) {
$td2.append(`<span class='icon-wrapper'><i class='fa-solid fa-${s["icon"]}'></i></span> ${typeText} `);
}
if (showRef) {
$td2.append(`${sig_refs} `);