w1cdn/spothole
1
0
Fork 0
mirror of https://git.ianrenton.com/ian/spothole.git synced 2025-12-16 17:13:39 +00:00
Code Issues 13 Packages Projects Releases Wiki Activity

Compare commits

base: w1cdn:3964134db95079a57503c8a0dd6a08e2d807e379
Branches Tags
w1cdn:main w1cdn:82-tota w1cdn:73-hamqth-lookup
w1cdn:1.0.1 w1cdn:1.0
..
compare: w1cdn:main
Branches Tags
w1cdn:main w1cdn:82-tota w1cdn:73-hamqth-lookup
w1cdn:1.0.1 w1cdn:1.0

75 Commits
3964134db9 ... main

Author SHA1 Message Date
Ian Renton
ac9e2ff054 Defensive coding 2025-12-15 12:26:41 +00:00
Ian Renton
6eaaca3a6f Up poll interval because TOTA activations are quick 2025-12-15 12:22:39 +00:00
Ian Renton
097c75eadd Improve SIG Ref lookup 2025-12-15 12:13:41 +00:00
Ian Renton
27db248398 39C3 TOTA URL 2025-12-15 12:13:32 +00:00
Ian Renton
b00b4130c5 PWA style tweaks 2025-11-30 18:33:49 +00:00
Ian Renton
b3be6b5ca4 Hacky attempt to force browsers to invalidate caches of JS files 2025-11-30 17:55:35 +00:00
Ian Renton
210a0564aa Enable embedded-mode support for filters 2025-11-30 16:46:19 +00:00
Ian Renton
03af6858b4 Tiny footer in embedded mode 2025-11-30 15:13:53 +00:00
Ian Renton
e86d6b8c28 Improve handling of buggy WOTA spot 2025-11-30 11:30:15 +00:00
Ian Renton
9d130712d8 Add URL params parsing and concept of "embedded mode" 2025-11-30 11:26:15 +00:00
Ian Renton
8a82f81ec4 Dark mode 2025-11-30 09:31:37 +00:00
Ian Renton
ca31d23b4a Defensive coding 2025-11-29 16:15:49 +00:00
Ian Renton
8a4f23ac72 Improve expired spot handling and efficiency of handling expired spots during web requests. 2025-11-29 16:12:44 +00:00
Ian Renton
3da8c80ad6 Defensive coding 2025-11-29 15:50:55 +00:00
Ian Renton
0fa8b44c9c Defensive coding 2025-11-29 15:04:19 +00:00
Ian Renton
4aa7b91092 Fix a bug where a spot with no DX lat/lon could still be marked as having "good location" 2025-11-29 15:01:05 +00:00
Ian Renton
e7469db99e README updates 2025-11-29 11:58:41 +00:00
Ian Renton
9d9f4609f0 Doc tweaks 2025-11-26 22:12:20 +00:00
Ian Renton
368e69bf00 Use tower-cell icon for cluster/unknown spots rather than the desktop icon 2025-11-26 21:49:11 +00:00
Ian Renton
9bdd0ab1de Add filtering based on SIG to the web UI. #84 2025-11-26 21:43:10 +00:00
Ian Renton
255719f3b5 Add a special 'NO_SIG' option to 'sig' query params, which will allow us to filter out all xOTA spots/alerts, leaving just the generic ones. #84 2025-11-26 21:13:14 +00:00
Ian Renton
f21ea0ae5d Remove duplicated enums in spec #83 2025-11-26 20:29:35 +00:00
Ian Renton
2be2af176c Merge branch '82-tota' 
# Conflicts:
#	webassets/apidocs/openapi.yml
 2025-11-26 20:29:05 +00:00
Ian Renton
583735c99f Remove start/end dates #82 2025-11-26 07:40:46 +00:00
Ian Renton
0c8973bbc6 Remove duplicated enums in spec #83 2025-11-25 22:03:09 +00:00
Ian Renton
296cdb3795 Wider ranges to detect FT8/FT4 in "Guess mode based on frequency" function #85 2025-11-25 21:32:48 +00:00
Ian Renton
6c9f3136b8 First pass at TOTA support #82 2025-11-24 21:57:29 +00:00
Ian Renton
4e427f26c3 About page updates 2025-11-23 11:23:13 +00:00
ian
714151a6b4 Update views/webpage_about.tpl 2025-11-23 10:58:26 +00:00
Ian Renton
0ccc2bd15d Minor tweaks 2025-11-17 17:58:52 +00:00
Ian Renton
5724c4c7ea Minor tweaks 2025-11-17 17:50:29 +00:00
Ian Renton
94c0cad769 Improve SIG regexes to specify numbers of digits 2025-11-17 17:41:01 +00:00
Ian Renton
452e4beb29 Fix imports 2025-11-17 17:22:12 +00:00
Ian Renton
b132fe8a39 Fix a bug where SIG API spots could be re-tagged as another SIG e.g. WAB if that was named in the comment. 2025-11-17 17:19:43 +00:00
Ian Renton
e525aaed92 Fix a bug where spothole was too keen on extracting secondary references for xOTA programmes from comments, and was not checking that the "references" it found were surrounded by whitespace. 2025-11-16 17:46:40 +00:00
Ian Renton
92b7110356 Merge remote-tracking branch 'origin/main' 2025-11-16 17:46:05 +00:00
Ian Renton
114eacb9dc Fix a bug where spothole was too keen on extracting secondary references for xOTA programmes from comments, and was not checking that the "references" it found were surrounded by whitespace. 2025-11-16 17:45:58 +00:00
Ian Renton
2a90b17b6b Fix URLs for WOTA outlying fells 2025-11-14 14:37:36 +00:00
Ian Renton
ae075f3ac7 Version number bump 2025-11-13 21:52:13 +00:00
Ian Renton
efa9806c64 Look up K0SWE's dxcc.json rather than using our own tables. Closes #80 2025-11-13 21:51:20 +00:00
Ian Renton
03829831c0 Fix debug code commit 2025-11-13 21:47:05 +00:00
Ian Renton
4f83468309 Add config for "Number of Spots" and "Spot Age" values used in the web UI. Closes #79 2025-11-13 21:18:27 +00:00
Ian Renton
2165ebc103 DXCC 999 2025-11-13 20:10:53 +00:00
Ian Renton
cf46017917 Fix WOTA parsing bug 2025-11-12 17:40:24 +00:00
Ian Renton
c30e1616d3 Image-based flags 2025-11-11 06:30:17 +00:00
Ian Renton
422c917073 Docs tweak 2025-11-10 19:30:40 +00:00
Ian Renton
cad1f5cfdf Defensive coding fix 2025-11-10 19:03:12 +00:00
Ian Renton
78f8cd26f0 Possible emoji flag fix for Windows/Chrome 2025-11-10 19:01:25 +00:00
Ian Renton
d6cc2673dd Search input should have search type 2025-11-08 18:44:37 +00:00
Ian Renton
8f553a59f8 Doc tweaks 2025-11-08 18:23:11 +00:00
Ian Renton
f1841ca59e v1.0 release 2025-11-08 11:44:11 +00:00
Ian Renton
85e0a7354c Reject "AA00aa" grids and 0/0 latlons from online lookup 2025-11-03 20:14:41 +00:00
Ian Renton
2ccfa28119 Get "qth" friendly name from QRZ/clublog and return in the callsign lookup. Closes #77 2025-11-02 20:51:16 +00:00
Ian Renton
b313735e28 Add missing break statements 2025-11-02 20:38:30 +00:00
Ian Renton
bbaa3597f6 Implement WWFF reference lookup. Closes #76 2025-11-02 20:37:30 +00:00
Ian Renton
e61d7bedb4 Exception handling #74 2025-11-02 18:00:24 +00:00
Ian Renton
ebf07f352f Exception handling #74 2025-11-02 17:59:37 +00:00
Ian Renton
e83ddead62 Tidy up some issues with alerts #74 2025-11-02 17:54:34 +00:00
Ian Renton
b8e1506846 Use HamQTH as a lookup provider. Closes #73 2025-11-02 17:45:54 +00:00
Ian Renton
d80c4cfbeb Provide an externally usable callsign lookup feature. #73 2025-11-02 16:52:27 +00:00
Ian Renton
92af0761aa Move checks for multiple references in comments out of POTA and DX Cluster classes into the main infer_missing() function for spots. #54 2025-11-02 16:18:33 +00:00
Ian Renton
286ff66721 Refactor looking up SIG reference details into a common location, taking it out of the individual spot providers. This means we can now look up references properly from Cluster spot comments, etc. Closes #74 as there is no longer any duplication of these lookups. Works towards #54 as sig_refs now specify their sig internally. 2025-11-02 15:45:19 +00:00
Ian Renton
28010a68ae Single common URL cache for semi-static lookups #74 2025-11-02 14:22:15 +00:00
Ian Renton
0e8c7873d8 Lookup for sig_ref data #73 2025-11-02 14:13:03 +00:00
Ian Renton
649b57a570 FIx a bug where touch scrolling on the map's filters popup would still be passed through to the map. Closes #72 2025-11-02 12:07:32 +00:00
Ian Renton
fa92657d9c Fix old alerts not getting deleted 2025-11-01 17:25:20 +00:00
Ian Renton
30fc333c8b Fix scrolling map filters panel on mobile 2025-11-01 17:05:47 +00:00
Ian Renton
0570b39e09 Add Spot page to allow sig and sig_ref entries. Closes #71 2025-11-01 12:38:57 +00:00
Ian Renton
1ed543872a Add Spot page to take mode options from API #71 2025-11-01 12:03:11 +00:00
Ian Renton
812d031a2c Fix link 2025-11-01 11:45:21 +00:00
Ian Renton
471c487132 Allow adding the DX grid when spotting #71 2025-11-01 11:11:33 +00:00
Ian Renton
57d950c1ca Fix search box appearance on mobile 2025-11-01 10:35:47 +00:00
Ian Renton
a3ec923c56 Improve add spot page warning and server-side validation. #71 2025-11-01 10:29:18 +00:00
Ian Renton
69821f817b Extract "add spot" into its own page 2025-11-01 08:52:46 +00:00
ian
0c79436399 Update views/webpage_spots.tpl 2025-10-31 19:21:01 +00:00
455 changed files with 2134 additions and 2510 deletions
Expand all files Collapse all files

91
README.md
View File

@@ -10,17 +10,62 @@ The API is deliberately well-defined with an OpenAPI specification and auto-gene
Spothole itself is also open source, Public Domain licenced code that anyone can take and modify.
Supported data sources include DX Clusters, the Reverse Beacon Network (RBN), the APRS Internet Service (APRS-IS), POTA, SOTA, WWFF, GMA, WWBOTA, HEMA, Parks 'n' Peaks, ZLOTA, WOTA, BOTA, the UK Packet Repeater Network, and NG3K.
Supported data sources include DX Clusters, the Reverse Beacon Network (RBN), the APRS Internet Service (APRS-IS), POTA, SOTA, WWFF, GMA, WWBOTA, HEMA, Parks 'n' Peaks, ZLOTA, WOTA, BOTA, the UK Packet Repeater Network, NG3K, and any site based on the xOTA software by nischu.
![Screenshot](/images/screenshot2.png)
![Screenshot](/images/screenshot3.png)
### Accessing the public version
## 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.
### Running your own copy
This is a Progressive Web App, so you can also "install" it to your Android or iOS device by accessing it in Chrome or Safari respectively, and following the menu-driven process for installing PWAs.
## Embedding Spothole in another website
You can embed Spothole in another website, e.g. for use as part of a ham radio custom dashboard.
URL parameters can be used to trigger an "embedded" mode which hides the headers, footers and settings. In this mode, you provide configuration for the various filter and display options via additional URL parameters. Any settings that the user has set for Spothole are ignored. This is so that the embedding site can select, for example, their choice of dark mode or SIG filters, which will not impact how Spothole appears when the user accesses it directly. Effectively, it becomes separate to their normal Spothole settings.
Setting `embedded` to true is important for the rest of the settings to be applied; otherwise, the user's defaults will be used in preference to the URL params.
These are supplied with the URL to the page you want to embed, for example for an embedded version of the band map in dark mode, use `https://spothole.com/bands?embedded=true&dark-mode=true`. For an embedded version of the main spots/home page in the system light/dark mode, use `https://spothole.com/?embedded=true`. For dark mode showing 70cm TOTA spots only, use `https://spothole.com/?embedded=true&dark-mode=true&filter-sigs=TOTA&filter-bands=70cm`. Providing no URL params causes the page to be loaded in the normal way it would when accessed directly in the user's browser.
The supported parameters are as follows. Generally these match the equivalent parameters in the real Spothole API, where a mapping exists.
| Name | Allowed Values | Default | Example | Description |
|----------------|-----------------------|---------|-------------------------|-----------------------------------------------------------------------------------------------------------------------------------------------------------------------|
| `embedded` | `true`, `false` | `false` | `?embedded=true` | Enables embedded mode. |
| `dark-mode` | `true`, `false` | `false` | `?dark-mode=true` | Enables dark mode. |
| `time-zone` | `UTC`, `local` | `UTC` | `?time-zone=local` | Sets times to be in UTC or local time. |
| `limit` | 10, 25, 50, 100 | 50 | `?limit=50` | Sets the number of spots that will be displayed on the main spots page |
| `limit` | 25, 50, 100, 200, 500 | 100 | `?limit=100` | Sets the number of alerts that will be displayed on the alerts page |
| `max_age` | 300, 600, 1800, 3600 | 1800 | `?max_age=1800` | Sets the maximum age of spots displayed on the map and bands pages, in seconds. |
| `band` | Comma-separated list | (all) | `?band=20m,40m` | Sets the list of bands that will be shown on the spots, bands and map pages. Available options match the labels of the buttons in the standard web interface. |
| `sig` | Comma-separated list | (all) | `?sig=POTA,SOTA,NO_SIG` | Sets the list of SIGs that will be shown on the spots, bands and map pages. Available options match the labels of the buttons in the standard web interface. |
| `source` | Comma-separated list | (all) | `?source=Cluster` | Sets the list of sources that will be shown on any spot or alert pages. Available options match the labels of the buttons in the standard web interface. |
| `mode_type` | Comma-separated list | (all) | `?mode_type=PHONE,CW` | Sets the list of mode types that will be shown on the spots, bands and map pages. Available options match the labels of the buttons in the standard web interface. |
| `dx_continent` | Comma-separated list | (all) | `?dx_continent=NA,SA` | Sets the list of DX Continents that will be shown on any spot or alert pages. Available options match the labels of the buttons in the standard web interface. |
| `de_continent` | Comma-separated list | (all) | `?de_continent=EU` | Sets the list of DE Continents that will be shown on the spots, bands and map pages. Available options match the labels of the buttons in the standard web interface. |
More will be added soon to allow customisation of filters and other display properties.
## Writing your own client
One of the key strengths of Spothole is that the API is well-defined and open to anyone to use. This means you can build your own software that uses data from Spothole.
Various approaches exist to writing your own client, but in general:
* Refer to the API docs. These are built on an OpenAPI definition file (`/webassets/apidocs/openapi.yml`), which you can automatically use to generate a client skeleton using various software.
* Call the main "spots" or "alerts" API endpoints to get the data you want. Apply filters if necessary.
* Call the "options" API to get an idea of which bands, modes etc. the server knows about. You might want to do that first before calling the spots/alerts APIs, to allow you to populate your filters correctly.
* Refer to the provided HTML/JS interface for a reference
* Let me know if you get stuck, I'm happy to help!
## Running your own copy
If you want to run a copy of Spothole with different configuration settings than the main instance, you can download it and run it on your own local machine or server.
To download and set up Spothole on a Debian server, run the following commands. Other operating systems will likely be similar.
@@ -34,7 +79,7 @@ deactivate
cp config-example.yml config.yml
```
Then edit `config.yml` in your text editor of choice to set up the software as you like it.
Then edit `config.yml` in your text editor of choice to set up the software as you like it. Mostly, this will involve enabling or disabling the various providers of spot and alert data.
`config.yml` has some entries for QRZ.com username & password, and Clublog API keys. If provided, these allow Spothole to retrieve more information about DX spots, such as the country their callsign corresponds to. The software will work just fine without them, but you may find a few country flags etc. are less accurate or missing.
@@ -57,6 +102,8 @@ If you see some errors on startup, check your configuration, e.g. in case you ha
### systemd configuration
If you want Spothole to run automatically on startup on a Linux distribution that uses `systemd`, follow the instructions here. For distros that don't use `systemd`, or Windows/OSX/etc., you can find generic instructions for your OS online.
Create a file at `/etc/systemd/system/spothole.service`. Give it the following content, adjusting for the user you want to run it as and the directory in which you have installed it:
```
@@ -87,7 +134,9 @@ Check the service has started up correctly with `sudo journalctl -u spothole -f`
### nginx Reverse Proxy configuration
It's best not to serve Spothole directly on port 80, as that requires root privileges and prevents us using HTTPS, amongst other reasons. To set up nginx as a reverse proxy that sits in front of Spothole, first ensure it's installed e.g. `sudo apt install nginx`, and enabled e.g. `sudo systemd enable nginx`.
Web servers generally serve their pages from port 80. However, it's best not to serve Spothole's web interface directly on port 80, as that requires root privileges on a Linux system. It also and prevents us using HTTPS to serve a secure site, since Spothole itself doesn't directly support acting as an HTTPS server. The normal solution to this is to use a "reverse proxy" setup, where a general web server handles HTTP and HTTP requests (to port 80 & 443 respectively), then passes on the request to the back-end application (in this case Spothole). nginx is a common choice for this general web server.
To set up nginx as a reverse proxy that sits in front of Spothole, first ensure it's installed e.g. `sudo apt install nginx`, and enabled e.g. `sudo systemd enable nginx`.
Create a file at `/etc/nginx/sites-available/` called `spothole`. Give it the following contents, replacing `spothole.app` with the domain name on which you want to run Spothole. If you changed the port on which Spothole runs, update that on the "proxy_pass" line too.
@@ -135,17 +184,11 @@ You should now be able to access the web interface by going to the domain from y
Once that's working, [install certbot](https://certbot.eff.org/instructions?ws=nginx&os=snap) onto your server. Run it as root, and when prompted pick your domain name from the list. After a few seconds, it should successfully provision a certificate and modify your nginx config files automatically. You should then be able to access the site via HTTPS.
### Writing your own client
## Modifying the source code
Various approaches exist to writing your own client, but in general:
Spothole is Public Domain licenced, so you can grab the source code and start modifying it for your own needs. Contributions of code back to the main repository are encouraged, but completely optional.
* Refer to the API docs. These are built on an OpenAPI definition file (`/webassets/apidocs/openapi.yml`), which you can automatically use to generate a client skeleton using various software.
* Call the main "spots" API to get the data you want. Apply filters if necessary.
* Call the "options" API to get an idea of which bands, modes etc. the server knows about. You might want to do that first before calling the spots API.
* Refer to the provided HTML/JS interface for a reference
* Let me know if you get stuck, I'm happy to help!
### Structure of the source code
### Code structure
To navigate your way around the source code, this list may help.
@@ -178,28 +221,32 @@ To navigate your way around the source code, this list may help.
### Extending the server
Spothole is designed to be easily extensible. If you want to write your own provider, simply add a module to the `providers` package containing your class. (Currently, in order to be loaded correctly, the module (file) name should be the same as the class name, but lower case.)
Spothole is designed to be easily extensible. If you want to write your own spot provider, for example, simply add a module to the `spotproviders` package containing your class. (Currently, in order to be loaded correctly, the module (file) name should be the same as the class name, but lower case.)
Your class should extend "Provider"; if it operates by polling an HTTP Server on a timer, it can instead extend "HTTPProvider" where some of the work is done for you.
Your class should extend "SpotProvider"; if it operates by polling an HTTP Server on a timer, it can instead extend "HTTPSpotProvider" where some of the work is done for you.
The class will need to implement a constructor that takes in the `provider_config` and provides it to the superclass constructor, while also taking any other config parameters it needs.
If you're extending the base `Provider` class, you will need to implement `start()` and `stop()` methods that start and stop a separate thread which handles the provider's processing needs. The thread should call `submit()` or `submit_batch()` when it has one or more spots to report.
If you're extending the base `SpotProvider` class, you will need to implement `start()` and `stop()` methods that start and stop a separate thread which handles the provider's processing needs. The thread should call `submit()` or `submit_batch()` when it has one or more spots to report.
If you're extending the `HTTPProvider` class, you will need to provide a URI to query and an interval to the superclass constructor. You'll then need to implement the `http_response_to_spots()` method which is called when new data is retrieved. Your implementation should then call `submit()` or `submit_batch()` when it has one or more spots to report.
If you're extending the `HTTPSpotProvider` class, you will need to provide a URI to query and an interval to the superclass constructor. You'll then need to implement the `http_response_to_spots()` method which is called when new data is retrieved. Your implementation should then call `submit()` or `submit_batch()` when it has one or more spots to report.
When constructing spots, use the comments in the Spot class and the existing implementations as an example. All parameters are optional, but you will at least want to provide a `time` (which must be timezone-aware) and a `dx_call`.
Finally, simply add the appropriate config to the `providers` section of `config.yml`, and your provider should be instantiated on startup.
Finally, simply add the appropriate config to the `spot_providers` section of `config.yml`, and your provider should be instantiated on startup.
### Thanks
The same approach as above is also used for alert providers.
## Thanks
As well as being my work, I have also gratefully received feature patches from Steven, M1SDH.
The project contains a self-hosted copy of Font Awesome's free library, in the `/webasset/fa/` directory. This is subject to Font Awesome's licence and is not covered by the overall licence declared in the `LICENSE` file. This approach was taken in preference to using their hosted kits due to the popularity of this project exceeding the page view limit for their free hosted offering.
The project contains a self-hosted copy of Font Awesome's free library, in the `/webassets/fa/` directory. This is subject to Font Awesome's licence and is not covered by the overall licence declared in the `LICENSE` file. This approach was taken in preference to using their hosted kits due to the popularity of this project exceeding the page view limit for their free hosted offering.
The project contains a set of flag icons generated using the "Noto Color Emoji" font on a Debian system, in the `/webassets/img/flags/` directory.
The software uses a number of Python libraries as listed in `requirements.txt`, and a number of JavaScript libraries such as jQuery, Leaflet and Bootstrap. This project would not have been possible without these libraries, so many thanks to their developers.
Particular thanks go to QRZCQ country-files.com for providing country lookup data for amateur radio, and to the developers of `pyhamtools` for making it easy to use this data as well as QRZ.com and Clublog lookup.
Particular thanks go to country-files.com for providing country lookup data for amateur radio, to K0SWE for [this JSON-formatted DXCC data](https://github.com/k0swe/dxcc-json/), and to the developers of `pyhamtools` for making it easy to use country-files.com data as well as QRZ.com and Clublog lookup.
The project's name was suggested by Harm, DK4HAA. Thanks!

5
alertproviders/alert_provider.py
View File

@@ -1,9 +1,8 @@
from datetime import datetime, timedelta
from datetime import datetime
import pytz
from core.config import SERVER_OWNER_CALLSIGN, MAX_ALERT_AGE
from core.constants import SOFTWARE_NAME, SOFTWARE_VERSION
from core.config import MAX_ALERT_AGE
# Generic alert provider class. Subclasses of this query the individual APIs for alerts.

6
alertproviders/bota.py
View File

@@ -2,8 +2,8 @@ from datetime import datetime, timedelta
import pytz
from bs4 import BeautifulSoup
from alertproviders.http_alert_provider import HTTPAlertProvider
from core.sig_utils import get_icon_for_sig
from data.alert import Alert
from data.sig_ref import SIGRef
@@ -38,9 +38,7 @@ class BOTA(HTTPAlertProvider):
# Convert to our alert format
alert = Alert(source=self.name,
dx_calls=[dx_call],
sig="BOTA",
sig_refs=[SIGRef(id=ref_name, name=ref_name, url="https://www.beachesontheair.com/beaches/" + ref_name.lower().replace(" ", "-"))],
icon=get_icon_for_sig("BOTA"),
sig_refs=[SIGRef(id=ref_name, sig="BOTA")],
start_time=date_time.timestamp(),
is_dxpedition=False)

12
alertproviders/parksnpeaks.py
View File

@@ -4,7 +4,6 @@ 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
from data.sig_ref import SIGRef
@@ -22,6 +21,7 @@ class ParksNPeaks(HTTPAlertProvider):
# Iterate through source data
for source_alert in http_response.json():
# Calculate some things
sig = source_alert["Class"]
if " - " in source_alert["Location"]:
split = source_alert["Location"].split(" - ")
sig_ref = split[0]
@@ -38,19 +38,17 @@ class ParksNPeaks(HTTPAlertProvider):
dx_calls=[source_alert["CallSign"].upper()],
freqs_modes=source_alert["Freq"] + " " + source_alert["MODE"],
comment=source_alert["Comments"],
sig=source_alert["Class"],
sig_refs=[SIGRef(id=sig_ref, name=sig_ref_name)],
icon=get_icon_for_sig(source_alert["Class"]),
sig_refs=[SIGRef(id=sig_ref, sig=sig, name=sig_ref_name)],
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 sig and sig not in ["POTA", "SOTA", "WWFF", "SiOTA", "ZLOTA", "KRMNPA"]:
logging.warn("PNP alert found with sig " + 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"]:
if sig not in ["POTA", "SOTA", "WWFF"]:
new_alerts.append(alert)
return new_alerts

5
alertproviders/pota.py
View File

@@ -3,7 +3,6 @@ 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
from data.sig_ref import SIGRef
@@ -26,9 +25,7 @@ class POTA(HTTPAlertProvider):
dx_calls=[source_alert["activator"].upper()],
freqs_modes=source_alert["frequencies"],
comment=source_alert["comments"],
sig="POTA",
sig_refs=[SIGRef(id=source_alert["reference"], name=source_alert["name"], url="https://pota.app/#/park/" + source_alert["reference"])],
icon=get_icon_for_sig("POTA"),
sig_refs=[SIGRef(id=source_alert["reference"], sig="POTA", name=source_alert["name"], url="https://pota.app/#/park/" + source_alert["reference"])],
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"],

5
alertproviders/sota.py
View File

@@ -3,7 +3,6 @@ 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
from data.sig_ref import SIGRef
@@ -27,9 +26,7 @@ class SOTA(HTTPAlertProvider):
dx_names=[source_alert["activatorName"].upper()],
freqs_modes=source_alert["frequency"],
comment=source_alert["comments"],
sig="SOTA",
sig_refs=[SIGRef(id=source_alert["associationCode"] + "/" + source_alert["summitCode"], name=source_alert["summitDetails"], url="https://www.sotadata.org.uk/en/summit/" + source_alert["summitCode"])],
icon=get_icon_for_sig("SOTA"),
sig_refs=[SIGRef(id=source_alert["associationCode"] + "/" + source_alert["summitCode"], sig="SOTA", name=source_alert["summitDetails"])],
start_time=datetime.strptime(source_alert["dateActivated"],
"%Y-%m-%dT%H:%M:%SZ").replace(tzinfo=pytz.UTC).timestamp(),
is_dxpedition=False)

5
alertproviders/wota.py
View File

@@ -4,7 +4,6 @@ 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
from data.sig_ref import SIGRef
@@ -54,9 +53,7 @@ class WOTA(HTTPAlertProvider):
dx_calls=[dx_call],
freqs_modes=freqs_modes,
comment=comment,
sig="WOTA",
sig_refs=[SIGRef(id=ref, name=ref_name, url="https://www.wota.org.uk/MM_" + ref)] if ref else [],
icon=get_icon_for_sig("WOTA"),
sig_refs=[SIGRef(id=ref, sig="WOTA", name=ref_name)] if ref else [],
start_time=time.timestamp())
# Add to our list.

5
alertproviders/wwff.py
View File

@@ -3,7 +3,6 @@ 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
from data.sig_ref import SIGRef
@@ -26,9 +25,7 @@ class WWFF(HTTPAlertProvider):
dx_calls=[source_alert["activator_call"].upper()],
freqs_modes=source_alert["band"] + " " + source_alert["mode"],
comment=source_alert["remarks"],
sig="WWFF",
sig_refs=[SIGRef(id=source_alert["reference"], url="https://wwff.co/directory/?showRef=" + source_alert["reference"])],
icon=get_icon_for_sig("WWFF"),
sig_refs=[SIGRef(id=source_alert["reference"], 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"],

29
config-example.yml
View File

@@ -81,6 +81,18 @@ spot-providers:
class: "UKPacketNet"
name: "UK Packet Radio Net"
enabled: false
-
class: "XOTA"
name: "39C3 TOTA"
enabled: false
url: "https://dev.39c3.totawatch.de/"
# Fixed SIG/latitude/longitude for all spots from a provider is currently only a feature for the "XOTA" provider,
# the software found at https://github.com/nischu/xOTA/. This is because this is a generic backend for xOTA
# programmes and so different URLs provide different programmes.
sig: "TOTA"
latitude: 53.5622678
longitude: 9.9855205
# Alert providers to use. Same setup as the spot providers list above.
alert-providers:
@@ -123,12 +135,25 @@ max-alert-age-sec: 604800
# Login for QRZ.com to look up information. Optional. You will need an "XML Subscriber" (paid) package to retrieve all
# the data for a callsign via their system.
qrz-username: "N0CALL"
qrz-username: ""
qrz-password: ""
# Login for HamQTH to look up information. Optional.
hamqth-username: ""
hamqth-password: ""
# API key for Clublog to look up information. Optional. You sill need to request one via their helpdesk portal if you
# want to use callsign lookups from Clublog.
clublog-api-key: ""
# Allow submitting spots to the Spothole API?
allow-spotting: true
allow-spotting: true
# Options for the web UI.
web-ui-options:
spot-count: [10, 25, 50, 100]
spot-count-default: 50
max-spot-age: [5, 10, 30, 60]
max-spot-age-default: 30
alert-count: [25, 50, 100, 200, 500]
alert-count-default: 100

10
core/cache_utils.py Normal file
View File

@@ -0,0 +1,10 @@
from datetime import timedelta
from requests_cache import CachedSession
# Cache for "semi-static" data such as the locations of parks, CSVs of reference lists, etc.
# This has an expiry time of 30 days, so will re-request from the source after that amount
# of time has passed. This is used throughout Spothole to cache data that does not change
# rapidly.
SEMI_STATIC_URL_DATA_CACHE = CachedSession("cache/semi_static_url_data_cache",
expire_after=timedelta(days=30))

25
core/cleanup.py
View File

@@ -1,5 +1,5 @@
import logging
from datetime import datetime, timedelta
from datetime import datetime
from threading import Timer
from time import sleep
@@ -29,16 +29,27 @@ class CleanupTimer:
# Perform cleanup and reschedule next timer
def cleanup(self):
try:
# Perform cleanup
# Perform cleanup via letting the data expire
self.spots.expire()
self.alerts.expire()
# Alerts can persist in the system for a while, so we want to explicitly clean up any alerts that have
# expired
# Explicitly clean up any spots and alerts that have expired
for id in list(self.spots.iterkeys()):
try:
spot = self.spots[id]
if spot.expired():
self.spots.delete(id)
except KeyError:
# Must have already been deleted, OK with that
pass
for id in list(self.alerts.iterkeys()):
alert = self.alerts[id]
if alert.expired():
self.alerts.evict(id)
try:
alert = self.alerts[id]
if alert.expired():
self.alerts.delete(id)
except KeyError:
# Must have already been deleted, OK with that
pass
self.status = "OK"
self.last_cleanup_time = datetime.now(pytz.UTC)

3
core/config.py
View File

@@ -16,4 +16,5 @@ MAX_SPOT_AGE = config["max-spot-age-sec"]
MAX_ALERT_AGE = config["max-alert-age-sec"]
SERVER_OWNER_CALLSIGN = config["server-owner-callsign"]
WEB_SERVER_PORT = config["web-server-port"]
ALLOW_SPOTTING = config["allow-spotting"]
ALLOW_SPOTTING = config["allow-spotting"]
WEB_UI_OPTIONS = config["web-ui-options"]

1440
core/constants.py
View File

File diff suppressed because it is too large Load Diff

362
core/lookup_helper.py
View File

@@ -1,7 +1,11 @@
import gzip
import json
import logging
import re
import urllib.parse
from datetime import timedelta
import xmltodict
from diskcache import Cache
from pyhamtools import LookupLib, Callinfo, callinfo
from pyhamtools.exceptions import APIKeyMissingError
@@ -9,9 +13,11 @@ from pyhamtools.frequency import freq_to_band
from pyhamtools.locator import latlong_to_locator
from requests_cache import CachedSession
from core.cache_utils import SEMI_STATIC_URL_DATA_CACHE
from core.config import config
from core.constants import BANDS, UNKNOWN_BAND, CW_MODES, PHONE_MODES, DATA_MODES, ALL_MODES, \
QRZCQ_CALLSIGN_LOOKUP_DATA, HTTP_HEADERS
HTTP_HEADERS, HAMQTH_PRG
# Singleton class that provides lookup functionality.
class LookupHelper:
@@ -31,18 +37,26 @@ class LookupHelper:
self.QRZ_CALLSIGN_DATA_CACHE = None
self.LOOKUP_LIB_QRZ = None
self.QRZ_AVAILABLE = None
self.HAMQTH_AVAILABLE = None
self.HAMQTH_CALLSIGN_DATA_CACHE = None
self.HAMQTH_BASE_URL = "https://www.hamqth.com/xml.php"
# HamQTH session keys expire after an hour. Rather than working out how much time has passed manually, we cheat
# and cache the HTTP response for 55 minutes, so when the login URL is queried within 55 minutes of the previous
# time, you just get the cached response.
self.HAMQTH_SESSION_LOOKUP_CACHE = CachedSession("cache/hamqth_session_cache",
expire_after=timedelta(minutes=55))
self.CALL_INFO_BASIC = None
self.LOOKUP_LIB_BASIC = None
self.COUNTRY_FILES_CTY_PLIST_DOWNLOAD_LOCATION = None
self.COUNTRY_FILES_CTY_PLIST_CACHE = None
self.DXCC_JSON_DOWNLOAD_LOCATION = None
self.DXCC_DATA = None
def start(self):
# Lookup helpers from pyhamtools. We use four (!) of these. The simplest is country-files.com, which downloads the data
# once on startup, and requires no login/key, but does not have the best coverage.
# If the user provides login details/API keys, we also set up helpers for QRZ.com, Clublog (live API request), and
# Clublog (XML download). The lookup functions iterate through these in a sensible order, looking for suitable data.
self.COUNTRY_FILES_CTY_PLIST_CACHE = CachedSession("cache/country_files_city_plist_cache",
expire_after=timedelta(days=10))
# Lookup helpers from pyhamtools. We use five (!) of these. The simplest is country-files.com, which downloads
# the data once on startup, and requires no login/key, but does not have the best coverage.
# If the user provides login details/API keys, we also set up helpers for QRZ.com, HamQTH, Clublog (live API
# request), and Clublog (XML download). The lookup functions iterate through these in a sensible order, looking
# for suitable data.
self.COUNTRY_FILES_CTY_PLIST_DOWNLOAD_LOCATION = "cache/cty.plist"
success = self.download_country_files_cty_plist()
if success:
@@ -52,12 +66,15 @@ class LookupHelper:
self.LOOKUP_LIB_BASIC = LookupLib(lookuptype="countryfile")
self.CALL_INFO_BASIC = Callinfo(self.LOOKUP_LIB_BASIC)
self.QRZ_AVAILABLE = config["qrz-password"] != ""
self.QRZ_AVAILABLE = config["qrz-username"] != "" and config["qrz-password"] != ""
if self.QRZ_AVAILABLE:
self.LOOKUP_LIB_QRZ = LookupLib(lookuptype="qrz", username=config["qrz-username"],
pwd=config["qrz-password"])
self.QRZ_CALLSIGN_DATA_CACHE = Cache('cache/qrz_callsign_lookup_cache')
self.HAMQTH_AVAILABLE = config["hamqth-username"] != "" and config["hamqth-password"] != ""
self.HAMQTH_CALLSIGN_DATA_CACHE = Cache('cache/hamqth_callsign_lookup_cache')
self.CLUBLOG_API_KEY = config["clublog-api-key"]
self.CLUBLOG_CTY_XML_CACHE = CachedSession("cache/clublog_cty_xml_cache", expire_after=timedelta(days=10))
self.CLUBLOG_API_AVAILABLE = self.CLUBLOG_API_KEY != ""
@@ -71,6 +88,19 @@ class LookupHelper:
filename=self.CLUBLOG_XML_DOWNLOAD_LOCATION)
self.CLUBLOG_CALLSIGN_DATA_CACHE = Cache('cache/clublog_callsign_lookup_cache')
# We also get a lookup of DXCC data from K0SWE to use for additional lookups of e.g. flags.
self.DXCC_JSON_DOWNLOAD_LOCATION = "cache/dxcc.json"
success = self.download_dxcc_json()
if success:
with open(self.DXCC_JSON_DOWNLOAD_LOCATION) as f:
tmp_dxcc_data = json.load(f)["dxcc"]
# Reformat as a map for faster lookup
self.DXCC_DATA = {}
for dxcc in tmp_dxcc_data:
self.DXCC_DATA[dxcc["entityCode"]] = dxcc
else:
logging.error("Could not download DXCC data, flags and similar data may be missing!")
# Download the cty.plist file from country-files.com on first startup. The pyhamtools lib can actually download and use
# this itself, but it's occasionally offline which causes it to throw an error. By downloading it separately, we can
# catch errors and handle them, falling back to a previous copy of the file in the cache, and we can use the
@@ -78,8 +108,8 @@ class LookupHelper:
def download_country_files_cty_plist(self):
try:
logging.info("Downloading Country-files.com cty.plist...")
response = self.COUNTRY_FILES_CTY_PLIST_CACHE.get("https://www.country-files.com/cty/cty.plist",
headers=HTTP_HEADERS).text
response = SEMI_STATIC_URL_DATA_CACHE.get("https://www.country-files.com/cty/cty.plist",
headers=HTTP_HEADERS).text
with open(self.COUNTRY_FILES_CTY_PLIST_DOWNLOAD_LOCATION, "w") as f:
f.write(response)
@@ -90,6 +120,22 @@ class LookupHelper:
logging.error("Exception when downloading Clublog cty.xml", e)
return False
# Download the dxcc.json file on first startup.
def download_dxcc_json(self):
try:
logging.info("Downloading dxcc.json...")
response = SEMI_STATIC_URL_DATA_CACHE.get("https://raw.githubusercontent.com/k0swe/dxcc-json/refs/heads/main/dxcc.json",
headers=HTTP_HEADERS).text
with open(self.DXCC_JSON_DOWNLOAD_LOCATION, "w") as f:
f.write(response)
f.flush()
return True
except Exception as e:
logging.error("Exception when downloading dxcc.json", e)
return False
# Download the cty.xml (gzipped) file from Clublog on first startup, so we can use it in preference to querying the
# database live if possible.
def download_clublog_ctyxml(self):
@@ -148,7 +194,12 @@ class LookupHelper:
qrz_data = self.get_qrz_data_for_callsign(call)
if qrz_data and "country" in qrz_data:
country = qrz_data["country"]
# Couldn't get anything from QRZ.com database, try Clublog data
# Couldn't get anything from QRZ.com database, try HamQTH
if not country:
hamqth_data = self.get_hamqth_data_for_callsign(call)
if hamqth_data and "country" in hamqth_data:
country = hamqth_data["country"]
# Couldn't get anything from HamQTH database, try Clublog data
if not country:
clublog_data = self.get_clublog_xml_data_for_callsign(call)
if clublog_data and "Name" in clublog_data:
@@ -157,16 +208,15 @@ class LookupHelper:
clublog_data = self.get_clublog_api_data_for_callsign(call)
if clublog_data and "Name" in clublog_data:
country = clublog_data["Name"]
# Couldn't get anything from Clublog database, try QRZCQ data
# Couldn't get anything from Clublog database, try DXCC data
if not country:
qrzcq_data = self.get_qrzcq_data_for_callsign(call)
if qrzcq_data and "country" in qrzcq_data:
country = qrzcq_data["country"]
dxcc_data = self.get_dxcc_data_for_callsign(call)
if dxcc_data and "name" in dxcc_data:
country = dxcc_data["name"]
return country
# Infer a DXCC ID from a callsign
def infer_dxcc_id_from_callsign(self, call):
self.get_clublog_xml_data_for_callsign("M0TRT")
try:
# Start with the basic country-files.com-based decoder.
dxcc = self.CALL_INFO_BASIC.get_adif_id(call)
@@ -177,7 +227,12 @@ class LookupHelper:
qrz_data = self.get_qrz_data_for_callsign(call)
if qrz_data and "adif" in qrz_data:
dxcc = qrz_data["adif"]
# Couldn't get anything from QRZ.com database, try Clublog data
# Couldn't get anything from QRZ.com database, try HamQTH
if not dxcc:
hamqth_data = self.get_hamqth_data_for_callsign(call)
if hamqth_data and "adif" in hamqth_data:
dxcc = hamqth_data["adif"]
# Couldn't get anything from HamQTH database, try Clublog data
if not dxcc:
clublog_data = self.get_clublog_xml_data_for_callsign(call)
if clublog_data and "DXCC" in clublog_data:
@@ -186,11 +241,11 @@ class LookupHelper:
clublog_data = self.get_clublog_api_data_for_callsign(call)
if clublog_data and "DXCC" in clublog_data:
dxcc = clublog_data["DXCC"]
# Couldn't get anything from Clublog database, try QRZCQ data
# Couldn't get anything from Clublog database, try DXCC data
if not dxcc:
qrzcq_data = self.get_qrzcq_data_for_callsign(call)
if qrzcq_data and "dxcc" in qrzcq_data:
dxcc = qrzcq_data["dxcc"]
dxcc_data = self.get_dxcc_data_for_callsign(call)
if dxcc_data and "entityCode" in dxcc_data:
dxcc = dxcc_data["entityCode"]
return dxcc
# Infer a continent shortcode from a callsign
@@ -200,7 +255,12 @@ class LookupHelper:
continent = self.CALL_INFO_BASIC.get_continent(call)
except (KeyError, ValueError) as e:
continent = None
# Couldn't get anything from basic call info database, try Clublog data
# Couldn't get anything from basic call info database, try HamQTH
if not continent:
hamqth_data = self.get_hamqth_data_for_callsign(call)
if hamqth_data and "continent" in hamqth_data:
country = hamqth_data["continent"]
# Couldn't get anything from HamQTH database, try Clublog data
if not continent:
clublog_data = self.get_clublog_xml_data_for_callsign(call)
if clublog_data and "Continent" in clublog_data:
@@ -209,11 +269,12 @@ class LookupHelper:
clublog_data = self.get_clublog_api_data_for_callsign(call)
if clublog_data and "Continent" in clublog_data:
continent = clublog_data["Continent"]
# Couldn't get anything from Clublog database, try QRZCQ data
# Couldn't get anything from Clublog database, try DXCC data
if not continent:
qrzcq_data = self.get_qrzcq_data_for_callsign(call)
if qrzcq_data and "continent" in qrzcq_data:
continent = qrzcq_data["continent"]
dxcc_data = self.get_dxcc_data_for_callsign(call)
# Some DXCCs are in two continents, if so don't use the continent data as we can't be sure
if dxcc_data and "continent" in dxcc_data and len(dxcc_data["continent"]) == 1:
continent = dxcc_data["continent"][0]
return continent
# Infer a CQ zone from a callsign
@@ -228,7 +289,12 @@ class LookupHelper:
qrz_data = self.get_qrz_data_for_callsign(call)
if qrz_data and "cqz" in qrz_data:
cqz = qrz_data["cqz"]
# Couldn't get anything from QRZ.com database, try Clublog data
# Couldn't get anything from QRZ.com database, try HamQTH
if not cqz:
hamqth_data = self.get_hamqth_data_for_callsign(call)
if hamqth_data and "cq" in hamqth_data:
cqz = hamqth_data["cq"]
# Couldn't get anything from HamQTH database, try Clublog data
if not cqz:
clublog_data = self.get_clublog_xml_data_for_callsign(call)
if clublog_data and "CQZ" in clublog_data:
@@ -237,11 +303,12 @@ class LookupHelper:
clublog_data = self.get_clublog_api_data_for_callsign(call)
if clublog_data and "CQZ" in clublog_data:
cqz = clublog_data["CQZ"]
# Couldn't get anything from Clublog database, try QRZCQ data
# Couldn't get anything from Clublog database, try DXCC data
if not cqz:
qrzcq_data = self.get_qrzcq_data_for_callsign(call)
if qrzcq_data and "cqz" in qrzcq_data:
cqz = qrzcq_data["cqz"]
dxcc_data = self.get_dxcc_data_for_callsign(call)
# Some DXCCs are in multiple zones, if so don't use the zone data as we can't be sure
if dxcc_data and "cq" in dxcc_data and len(dxcc_data["cq"]) == 1:
cqz = dxcc_data["cq"][0]
return cqz
# Infer a ITU zone from a callsign
@@ -256,13 +323,118 @@ class LookupHelper:
qrz_data = self.get_qrz_data_for_callsign(call)
if qrz_data and "ituz" in qrz_data:
ituz = qrz_data["ituz"]
# Couldn't get anything from QRZ.com database, Clublog doesn't provide this, so try QRZCQ data
# Couldn't get anything from QRZ.com database, try HamQTH
if not ituz:
qrzcq_data = self.get_qrzcq_data_for_callsign(call)
if qrzcq_data and "ituz" in qrzcq_data:
ituz = qrzcq_data["ituz"]
hamqth_data = self.get_hamqth_data_for_callsign(call)
if hamqth_data and "itu" in hamqth_data:
ituz = hamqth_data["itu"]
# Couldn't get anything from HamQTH database, Clublog doesn't provide this, so try DXCC data
if not ituz:
dxcc_data = self.get_dxcc_data_for_callsign(call)
# Some DXCCs are in multiple zones, if so don't use the zone data as we can't be sure
if dxcc_data and "itu" in dxcc_data and len(dxcc_data["itu"]) == 1:
ituz = dxcc_data["itu"]
return ituz
# Get an emoji flag for a given DXCC entity ID
def get_flag_for_dxcc(self, dxcc):
return self.DXCC_DATA[dxcc]["flag"] if dxcc in self.DXCC_DATA else None
# Infer an operator name from a callsign (requires QRZ.com/HamQTH)
def infer_name_from_callsign_online_lookup(self, call):
data = self.get_qrz_data_for_callsign(call)
if data and "fname" in data:
name = data["fname"]
if "name" in data:
name = name + " " + data["name"]
return name
data = self.get_hamqth_data_for_callsign(call)
if data and "nick" in data:
return data["nick"]
else:
return None
# Infer a latitude and longitude from a callsign (requires QRZ.com/HamQTH)
# Coordinates that look default are rejected (apologies if your position really is 0,0, enjoy your voyage)
def infer_latlon_from_callsign_online_lookup(self, call):
data = self.get_qrz_data_for_callsign(call)
if data and "latitude" in data and "longitude" in data and (data["latitude"] != 0 or data["longitude"] != 0):
return [data["latitude"], data["longitude"]]
data = self.get_hamqth_data_for_callsign(call)
if data and "latitude" in data and "longitude" in data and (data["latitude"] != 0 or data["longitude"] != 0):
return [data["latitude"], data["longitude"]]
else:
return None
# Infer a grid locator from a callsign (requires QRZ.com/HamQTH).
# Grids that look default are rejected (apologies if your grid really is AA00aa, enjoy your research)
def infer_grid_from_callsign_online_lookup(self, call):
data = self.get_qrz_data_for_callsign(call)
if data and "locator" in data and data["locator"].upper() != "AA00" and data["locator"].upper() != "AA00AA" and data["locator"].upper() != "AA00AA00":
return data["locator"]
data = self.get_hamqth_data_for_callsign(call)
if data and "grid" in data and data["grid"].upper() != "AA00" and data["grid"].upper() != "AA00AA" and data["grid"].upper() != "AA00AA00":
return data["grid"]
else:
return None
# Infer a textual QTH from a callsign (requires QRZ.com/HamQTH)
def infer_qth_from_callsign_online_lookup(self, call):
data = self.get_qrz_data_for_callsign(call)
if data and "addr2" in data:
return data["addr2"]
data = self.get_hamqth_data_for_callsign(call)
if data and "qth" in data:
return data["qth"]
else:
return None
# Infer a latitude and longitude from a callsign (using DXCC, probably very inaccurate)
def infer_latlon_from_callsign_dxcc(self, call):
try:
data = self.CALL_INFO_BASIC.get_lat_long(call)
if data and "latitude" in data and "longitude" in data:
loc = [data["latitude"], data["longitude"]]
else:
loc = None
except KeyError:
loc = None
# Couldn't get anything from basic call info database, try Clublog data
if not loc:
data = self.get_clublog_xml_data_for_callsign(call)
if data and "Lat" in data and "Lon" in data:
loc = [data["Lat"], data["Lon"]]
if not loc:
data = self.get_clublog_api_data_for_callsign(call)
if data and "Lat" in data and "Lon" in data:
loc = [data["Lat"], data["Lon"]]
return loc
# Infer a grid locator from a callsign (using DXCC, probably very inaccurate)
def infer_grid_from_callsign_dxcc(self, call):
latlon = self.infer_latlon_from_callsign_dxcc(call)
return latlong_to_locator(latlon[0], latlon[1], 8)
# Infer a mode from the frequency (in Hz) according to the band plan. Just a guess really.
def infer_mode_from_frequency(self, freq):
try:
khz = freq / 1000.0
mode = freq_to_band(khz)["mode"]
# Some additional common digimode ranges in addition to what the 3rd-party freq_to_band function returns.
# This is mostly here just because freq_to_band is very specific about things like FT8 frequencies, and e.g.
# a spot at 7074.5 kHz will be indicated as LSB, even though it's clearly in the FT8 range. Future updates
# might include other common digimode centres of activity here, but this achieves the main goal of keeping
# large numbers of clearly-FT* spots off the list of people filtering out digimodes.
if (7074 <= khz < 7077) or (10136 <= khz < 10139) or (14074 <= khz < 14077) or (18100 <= khz < 18103) or (
21074 <= khz < 21077) or (24915 <= khz < 24918) or (28074 <= khz < 28077):
mode = "FT8"
if (7047.5 <= khz < 7050.5) or (10140 <= khz < 10143) or (14080 <= khz < 14083) or (
18104 <= khz < 18107) or (21140 <= khz < 21143) or (24919 <= khz < 24922) or (28180 <= khz < 28183):
mode = "FT4"
return mode
except KeyError:
return None
# 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
@@ -283,9 +455,57 @@ class LookupHelper:
# 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
return None
except (Exception):
# General exception like a timeout when communicating with QRZ. Return None this time, but don't cache
# that, so we can try again next time.
logging.error("Exception when looking up QRZ data")
return None
else:
return None
# Utility method to get HamQTH data from cache if possible, if not get it from the API and cache it
def get_hamqth_data_for_callsign(self, call):
# Fetch from cache if we can, otherwise fetch from the API and cache it
if call in self.HAMQTH_CALLSIGN_DATA_CACHE:
return self.HAMQTH_CALLSIGN_DATA_CACHE.get(call)
elif self.HAMQTH_AVAILABLE:
try:
# First we need to log in and get a session token.
session_data = self.HAMQTH_SESSION_LOOKUP_CACHE.get(
self.HAMQTH_BASE_URL + "?u=" + urllib.parse.quote_plus(config["hamqth-username"]) +
"&p=" + urllib.parse.quote_plus(config["hamqth-password"]), headers=HTTP_HEADERS).content
dict_data = xmltodict.parse(session_data)
if "session_id" in dict_data["HamQTH"]["session"]:
session_id = dict_data["HamQTH"]["session"]["session_id"]
# Now look up the actual data.
try:
lookup_data = SEMI_STATIC_URL_DATA_CACHE.get(
self.HAMQTH_BASE_URL + "?id=" + session_id + "&callsign=" + urllib.parse.quote_plus(
call) + "&prg=" + HAMQTH_PRG, headers=HTTP_HEADERS).content
data = xmltodict.parse(lookup_data)["HamQTH"]["search"]
self.HAMQTH_CALLSIGN_DATA_CACHE.add(call, data, expire=604800) # 1 week in seconds
return data
except (KeyError, ValueError):
# HamQTH had no info for the call, but maybe it had prefixes or suffixes. Try again with the base call.
try:
lookup_data = SEMI_STATIC_URL_DATA_CACHE.get(
self.HAMQTH_BASE_URL + "?id=" + session_id + "&callsign=" + urllib.parse.quote_plus(
callinfo.Callinfo.get_homecall(call)) + "&prg=" + HAMQTH_PRG, headers=HTTP_HEADERS).content
data = xmltodict.parse(lookup_data)["HamQTH"]["search"]
self.HAMQTH_CALLSIGN_DATA_CACHE.add(call, data, expire=604800) # 1 week in seconds
return data
except (KeyError, ValueError):
# HamQTH had no info for the call, that's OK. Cache a None so we don't try to look this up again
self.HAMQTH_CALLSIGN_DATA_CACHE.add(call, None, expire=604800) # 1 week in seconds
return None
else:
logging.warn("HamQTH login details incorrect, failed to look up with HamQTH.")
except:
logging.error("Exception when looking up HamQTH data")
return None
# 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
@@ -326,78 +546,18 @@ class LookupHelper:
else:
return None
# Utility method to get QRZCQ data from our constants table, if we can find it
def get_qrzcq_data_for_callsign(self, call):
# Iterate in reverse order - see comments on the data structure itself
for entry in reversed(QRZCQ_CALLSIGN_LOOKUP_DATA):
if call.startswith(entry["prefix"]):
# Utility method to get generic DXCC data from our lookup table, if we can find it
def get_dxcc_data_for_callsign(self, call):
for entry in self.DXCC_DATA.values():
if re.match(entry["prefixRegex"], call):
return entry
return None
# Infer an operator name from a callsign (requires QRZ.com)
def infer_name_from_callsign(self, call):
data = self.get_qrz_data_for_callsign(call)
if data and "fname" in data:
name = data["fname"]
if "name" in data:
name = name + " " + data["name"]
return name
else:
return None
# Infer a latitude and longitude from a callsign (requires QRZ.com)
def infer_latlon_from_callsign_qrz(self, call):
data = self.get_qrz_data_for_callsign(call)
if data and "latitude" in data and "longitude" in data:
return [data["latitude"], data["longitude"]]
else:
return None
# Infer a grid locator from a callsign (requires QRZ.com)
def infer_grid_from_callsign_qrz(self, call):
data = self.get_qrz_data_for_callsign(call)
if data and "locator" in data:
return data["locator"]
else:
return None
# Infer a latitude and longitude from a callsign (using DXCC, probably very inaccurate)
def infer_latlon_from_callsign_dxcc(self, call):
try:
data = self.CALL_INFO_BASIC.get_lat_long(call)
if data and "latitude" in data and "longitude" in data:
loc = [data["latitude"], data["longitude"]]
else:
loc = None
except KeyError:
loc = None
# Couldn't get anything from basic call info database, try Clublog data
if not loc:
data = self.get_clublog_xml_data_for_callsign(call)
if data and "Lat" in data and "Lon" in data:
loc = [data["Lat"], data["Lon"]]
if not loc:
data = self.get_clublog_api_data_for_callsign(call)
if data and "Lat" in data and "Lon" in data:
loc = [data["Lat"], data["Lon"]]
return loc
# Infer a grid locator from a callsign (using DXCC, probably very inaccurate)
def infer_grid_from_callsign_dxcc(self, call):
latlon = self.infer_latlon_from_callsign_dxcc(call)
return latlong_to_locator(latlon[0], latlon[1], 8)
# Infer a mode from the frequency (in Hz) according to the band plan. Just a guess really.
def infer_mode_from_frequency(self, freq):
try:
return freq_to_band(freq / 1000.0)["mode"]
except KeyError:
return None
# Shutdown method to close down any caches neatly.
def stop(self):
self.QRZ_CALLSIGN_DATA_CACHE.close()
self.CLUBLOG_CALLSIGN_DATA_CACHE.close()
# Singleton object
lookup_helper = LookupHelper()

131
core/sig_utils.py
View File

@@ -1,4 +1,12 @@
from core.constants import SIGS
import csv
import logging
from pyhamtools.locator import latlong_to_locator
from core.cache_utils import SEMI_STATIC_URL_DATA_CACHE
from core.constants import SIGS, HTTP_HEADERS
from core.geo_utils import wab_wai_square_to_lat_lon
# 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):
@@ -7,15 +15,132 @@ def get_icon_for_sig(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:
if s.name.upper() == sig.upper():
return s.ref_regex
return None
# Look up details of a SIG reference (e.g. POTA park) such as name, lat/lon, and grid. Takes in a sig_ref object which
# must at minimum have a "sig" and an "id". The rest of the object will be populated and returned.
# Note there is currently no support for KRMNPA location lookup, see issue #61.
def populate_sig_ref_info(sig_ref):
if sig_ref.sig is None or sig_ref.id is None:
logging.warn("Failed to look up sig_ref info, sig or id were not set.")
sig = sig_ref.sig
ref_id = sig_ref.id
try:
if sig.upper() == "POTA":
data = SEMI_STATIC_URL_DATA_CACHE.get("https://api.pota.app/park/" + ref_id, headers=HTTP_HEADERS).json()
if data:
fullname = data["name"] if "name" in data else None
if fullname and "parktypeDesc" in data and data["parktypeDesc"] != "":
fullname = fullname + " " + data["parktypeDesc"]
sig_ref.name = fullname
sig_ref.url = "https://pota.app/#/park/" + ref_id
sig_ref.grid = data["grid6"] if "grid6" in data else None
sig_ref.latitude = data["latitude"] if "latitude" in data else None
sig_ref.longitude = data["longitude"] if "longitude" in data else None
elif sig.upper() == "SOTA":
data = SEMI_STATIC_URL_DATA_CACHE.get("https://api-db2.sota.org.uk/api/summits/" + ref_id,
headers=HTTP_HEADERS).json()
if data:
sig_ref.name = data["name"] if "name" in data else None
sig_ref.url = "https://www.sotadata.org.uk/en/summit/" + ref_id
sig_ref.grid = data["locator"] if "locator" in data else None
sig_ref.latitude = data["latitude"] if "latitude" in data else None
sig_ref.longitude = data["longitude"] if "longitude" in data else None
elif sig.upper() == "WWBOTA":
data = SEMI_STATIC_URL_DATA_CACHE.get("https://api.wwbota.org/bunkers/" + ref_id,
headers=HTTP_HEADERS).json()
if data:
sig_ref.name = data["name"] if "name" in data else None
sig_ref.url = "https://bunkerwiki.org/?s=" + ref_id if ref_id.startswith("B/G") else None
sig_ref.grid = data["locator"] if "locator" in data else None
sig_ref.latitude = data["lat"] if "lat" in data else None
sig_ref.longitude = data["long"] if "long" in data else None
elif sig.upper() == "GMA" or sig.upper() == "ARLHS" or sig.upper() == "ILLW" or sig.upper() == "WCA" or sig.upper() == "MOTA" or sig.upper() == "IOTA":
data = SEMI_STATIC_URL_DATA_CACHE.get("https://www.cqgma.org/api/ref/?" + ref_id,
headers=HTTP_HEADERS).json()
if data:
sig_ref.name = data["name"] if "name" in data else None
sig_ref.url = "https://www.cqgma.org/zinfo.php?ref=" + ref_id
sig_ref.grid = data["locator"] if "locator" in data else None
sig_ref.latitude = data["latitude"] if "latitude" in data else None
sig_ref.longitude = data["longitude"] if "longitude" in data else None
elif sig.upper() == "WWFF":
wwff_csv_data = SEMI_STATIC_URL_DATA_CACHE.get("https://wwff.co/wwff-data/wwff_directory.csv",
headers=HTTP_HEADERS)
wwff_dr = csv.DictReader(wwff_csv_data.content.decode().splitlines())
for row in wwff_dr:
if row["reference"] == ref_id:
sig_ref.name = row["name"] if "name" in row else None
sig_ref.url = "https://wwff.co/directory/?showRef=" + ref_id
sig_ref.grid = row["iaruLocator"] if "iaruLocator" in row else None
sig_ref.latitude = float(row["latitude"]) if "latitude" in row else None
sig_ref.longitude = float(row["longitude"]) if "longitude" in row else None
break
elif sig.upper() == "SIOTA":
siota_csv_data = SEMI_STATIC_URL_DATA_CACHE.get("https://www.silosontheair.com/data/silos.csv",
headers=HTTP_HEADERS)
siota_dr = csv.DictReader(siota_csv_data.content.decode().splitlines())
for row in siota_dr:
if row["SILO_CODE"] == ref_id:
sig_ref.name = row["NAME"] if "NAME" in row else None
sig_ref.grid = row["LOCATOR"] if "LOCATOR" in row else None
sig_ref.latitude = float(row["LAT"]) if "LAT" in row else None
sig_ref.longitude = float(row["LNG"]) if "LNG" in row else None
break
elif sig.upper() == "WOTA":
data = SEMI_STATIC_URL_DATA_CACHE.get("https://www.wota.org.uk/mapping/data/summits.json",
headers=HTTP_HEADERS).json()
if data:
for feature in data["features"]:
if feature["properties"]["wotaId"] == ref_id:
sig_ref.name = feature["properties"]["title"]
# Fudge WOTA URLs. Outlying fell (LDO) URLs don't match their ID numbers but require 214 to be
# added to them
sig_ref.url = "https://www.wota.org.uk/MM_" + ref_id
if ref_id.upper().startswith("LDO-"):
number = int(ref_id.upper().replace("LDO-", ""))
sig_ref.url = "https://www.wota.org.uk/MM_LDO-" + str(number + 214)
sig_ref.grid = feature["properties"]["qthLocator"]
sig_ref.latitude = feature["geometry"]["coordinates"][1]
sig_ref.longitude = feature["geometry"]["coordinates"][0]
break
elif sig.upper() == "ZLOTA":
data = SEMI_STATIC_URL_DATA_CACHE.get("https://ontheair.nz/assets/assets.json", headers=HTTP_HEADERS).json()
if data:
for asset in data:
if asset["code"] == ref_id:
sig_ref.name = asset["name"]
sig_ref.url = "https://ontheair.nz/assets/ZLI_OT-030" + ref_id.replace("/", "_")
sig_ref.grid = latlong_to_locator(asset["y"], asset["x"], 6)
sig_ref.latitude = asset["y"]
sig_ref.longitude = asset["x"]
break
elif sig.upper() == "BOTA":
if not sig_ref.name:
sig_ref.name = sig_ref.id
sig_ref.url = "https://www.beachesontheair.com/beaches/" + sig_ref.name.lower().replace(" ", "-")
elif sig.upper() == "WAB" or sig.upper() == "WAI":
ll = wab_wai_square_to_lat_lon(ref_id)
if ll:
sig_ref.name = ref_id
sig_ref.grid = latlong_to_locator(ll[0], ll[1], 6)
sig_ref.latitude = ll[0]
sig_ref.longitude = ll[1]
except:
logging.warn("Failed to look up sig_ref info for " + sig + " ref " + ref_id + ".")
return sig_ref
# 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+"
ANY_XOTA_SIG_REF_REGEX = r"[\w\/]+\-\d+"

24
data/alert.py
View File

@@ -1,15 +1,13 @@
import copy
import hashlib
import json
import re
from dataclasses import dataclass
from datetime import datetime, timedelta
import pytz
from core.constants import DXCC_FLAGS
from core.lookup_helper import lookup_helper
from core.sig_utils import get_icon_for_sig
from core.sig_utils import get_icon_for_sig, populate_sig_ref_info
# Data class that defines an alert.
@@ -96,8 +94,20 @@ class Alert:
self.dx_itu_zone = lookup_helper.infer_itu_zone_from_callsign(self.dx_calls[0])
if self.dx_calls and self.dx_calls[0] and not self.dx_dxcc_id:
self.dx_dxcc_id = lookup_helper.infer_dxcc_id_from_callsign(self.dx_calls[0])
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]
if self.dx_dxcc_id and not self.dx_flag:
self.dx_flag = lookup_helper.get_flag_for_dxcc(self.dx_dxcc_id)
# Fetch SIG data. In case a particular API doesn't provide a full set of name, lat, lon & grid for a reference
# in its initial call, we use this code to populate the rest of the data. This includes working out grid refs
# from WAB and WAI, which count as a SIG even though there's no real lookup, just maths
if self.sig_refs and len(self.sig_refs) > 0:
for sig_ref in self.sig_refs:
populate_sig_ref_info(sig_ref)
# If the spot itself doesn't have a SIG yet, but we have at least one SIG reference, take that reference's SIG
# and apply it to the whole spot.
if self.sig_refs and len(self.sig_refs) > 0 and not self.sig:
self.sig = self.sig_refs[0].sig
# Icon from SIG
if self.sig and not self.icon:
@@ -107,7 +117,7 @@ class Alert:
# 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.
if self.dx_calls and not self.dx_names:
self.dx_names = list(map(lambda c: lookup_helper.infer_name_from_callsign(c), self.dx_calls))
self.dx_names = list(map(lambda c: lookup_helper.infer_name_from_callsign_online_lookup(c), self.dx_calls))
# Always create an ID based on a hash of every parameter *except* received_time. This is used as the index
# to a map, which as a byproduct avoids us having multiple duplicate copies of the object that are identical
@@ -124,7 +134,7 @@ class Alert:
return json.dumps(self, default=lambda o: o.__dict__, sort_keys=True)
# Decide if this alert has expired (in which case it should not be added to the system in the first place, and not
# returned by the web server if later requested, and removed by the cleanup functions. "Expired" is defined as
# returned by the web server if later requested, and removed by the cleanup functions). "Expired" is defined as
# either having an end_time in the past, or if it only has a start_time, then that start time was more than 3 hours
# ago. If it somehow doesn't have a start_time either, it is considered to be expired.
def expired(self):

10
data/sig_ref.py
View File

@@ -6,7 +6,15 @@ from dataclasses import dataclass
class SIGRef:
# Reference ID, e.g. "GB-0001".
id: str
# SIG that this reference is in, e.g. "POTA".
sig: str
# Name of the reference, e.g. "Null Country Park", if known.
name: str = None
# URL to look up more information about the reference, if known.
url: str = None
url: str = None
# Latitude of the reference, if known.
latitude: float = None
# Longitude of the reference, if known.
longitude: float = None
# Maidenhead grid reference of the reference, if known.
grid: str = None

178
data/spot.py
View File

@@ -4,15 +4,15 @@ import json
import logging
import re
from dataclasses import dataclass
from datetime import datetime
from datetime import datetime, timedelta
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.config import MAX_SPOT_AGE
from core.lookup_helper import lookup_helper
from core.sig_utils import get_icon_for_sig
from core.sig_utils import get_icon_for_sig, populate_sig_ref_info, ANY_SIG_REGEX, get_ref_regex_for_sig
from data.sig_ref import SIGRef
# Data class that defines a spot.
@@ -27,6 +27,9 @@ class Spot:
dx_call: str = None
# Name of the operator that has been spotted
dx_name: str = None
# QTH of the operator that has been spotted. This could be from any SIG refs or could be from online lookup of their
# home QTH.
dx_qth: str = None
# Country of the DX operator
dx_country: str = None
# Country flag of the DX operator
@@ -35,8 +38,6 @@ class Spot:
dx_continent: str = None
# DXCC ID of the DX operator
dx_dxcc_id: int = None
# DXCC ID of the spotter
de_dxcc_id: int = None
# CQ zone of the DX operator
dx_cq_zone: int = None
# ITU zone of the DX operator
@@ -50,11 +51,12 @@ class Spot:
# lookup
dx_latitude: float = None
dx_longitude: float = None
# DX Location source. Indicates how accurate the location might be. Values: "SPOT", "WAB/WAI GRID", "QRZ", "DXCC", "NONE"
# DX Location source. Indicates how accurate the location might be. Values: "SPOT", "WAB/WAI GRID", "HOME QTH",
# "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. 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.
# true if the location source is "SPOT" or "WAB/WAI GRID", or if the location source is "HOME QTH" and the DX
# callsign doesn't have a suffix like /P.
dx_location_good: bool = False
# DE (Spotter) info
@@ -67,6 +69,8 @@ class Spot:
de_flag: str = None
# Continent of the spotter
de_continent: str = None
# DXCC ID of the spotter
de_dxcc_id: int = None
# If this is an APRS/Packet/etc spot, what SSID was the spotter/receiver using?
de_ssid: str = None
# Maidenhead grid locator for the spotter. This is not going to be from a xOTA reference so it will likely just be
@@ -170,8 +174,8 @@ class Spot:
self.dx_itu_zone = lookup_helper.infer_itu_zone_from_callsign(self.dx_call)
if self.dx_call and not self.dx_dxcc_id:
self.dx_dxcc_id = lookup_helper.infer_dxcc_id_from_callsign(self.dx_call)
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]
if self.dx_dxcc_id and not self.dx_flag:
self.dx_flag = lookup_helper.get_flag_for_dxcc(self.dx_dxcc_id)
# Clean up spotter call if it has an SSID or -# from RBN
if self.de_call and "-" in self.de_call:
@@ -196,15 +200,15 @@ class Spot:
# Spotter country, continent, zones etc. from callsign.
# DE call with no digits, or APRS servers starting "T2" are not things we can look up location for
if any(char.isdigit() for char in self.de_call) and not (self.de_call.startswith("T2") and self.source == "APRS-IS"):
if self.de_call and not self.de_country:
if self.de_call and any(char.isdigit() for char in self.de_call) and not (self.de_call.startswith("T2") and self.source == "APRS-IS"):
if not self.de_country:
self.de_country = lookup_helper.infer_country_from_callsign(self.de_call)
if self.de_call and not self.de_continent:
if not self.de_continent:
self.de_continent = lookup_helper.infer_continent_from_callsign(self.de_call)
if self.de_call and not self.de_dxcc_id:
if not self.de_dxcc_id:
self.de_dxcc_id = lookup_helper.infer_dxcc_id_from_callsign(self.de_call)
if self.de_dxcc_id and self.de_dxcc_id in DXCC_FLAGS and not self.de_flag:
self.de_flag = DXCC_FLAGS[self.de_dxcc_id]
if self.de_dxcc_id and not self.de_flag:
self.de_flag = lookup_helper.get_flag_for_dxcc(self.de_dxcc_id)
# Band from frequency
if self.freq and not self.band:
@@ -232,11 +236,75 @@ 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:
# If we have a latitude at this point, it can only have been provided by the spot itself
if self.dx_latitude:
self.dx_location_source = "SPOT"
# Set the top-level "SIG" if it is missing but we have at least one SIG ref.
if not self.sig and self.sig_refs and len(self.sig_refs) > 0:
self.sig = self.sig_refs[0].sig.upper()
# See if we already have a SIG reference, but the comment looks like it contains more for the same SIG. This
# should catch e.g. POTA comments like "2-fer: GB-0001 GB-0002".
if self.comment and self.sig_refs and len(self.sig_refs) > 0 and self.sig_refs[0].sig:
sig = self.sig_refs[0].sig.upper()
regex = get_ref_regex_for_sig(sig)
if regex:
all_comment_ref_matches = re.finditer(r"(^|\W)(" + regex + r")(^|\W)", self.comment, re.IGNORECASE)
for ref_match in all_comment_ref_matches:
self.append_sig_ref_if_missing(SIGRef(id=ref_match.group(2).upper(), sig=sig))
# See if the comment looks like it contains any SIGs (and optionally SIG references) that we can
# add to the spot. This should catch cluster spot comments like "POTA GB-0001 WWFF GFF-0001" and e.g. POTA
# comments like "also WWFF GFF-0001".
if self.comment:
sig_matches = re.finditer(r"(^|\W)" + ANY_SIG_REGEX + r"($|\W)", self.comment, re.IGNORECASE)
for sig_match in sig_matches:
# First of all, if we haven't got a SIG for this spot set yet, now we have. This covers things like cluster
# spots where the comment is just "POTA".
found_sig = sig_match.group(2).upper()
if not self.sig:
self.sig = found_sig
# Now look to see if that SIG name was followed by something that looks like a reference ID for that SIG.
# If so, add that to the sig_refs list for this spot.
ref_regex = get_ref_regex_for_sig(found_sig)
if ref_regex:
ref_matches = re.finditer(r"(^|\W)" + found_sig + r"($|\W)(" + ref_regex + r")($|\W)", self.comment, re.IGNORECASE)
for ref_match in ref_matches:
self.append_sig_ref_if_missing(SIGRef(id=ref_match.group(3).upper(), sig=found_sig))
# Fetch SIG data. In case a particular API doesn't provide a full set of name, lat, lon & grid for a reference
# in its initial call, we use this code to populate the rest of the data. This includes working out grid refs
# from WAB and WAI, which count as a SIG even though there's no real lookup, just maths
if self.sig_refs and len(self.sig_refs) > 0:
for sig_ref in self.sig_refs:
sig_ref = populate_sig_ref_info(sig_ref)
# If the spot itself doesn't have location yet, but the SIG ref does, extract it
if sig_ref.grid and not self.dx_grid:
self.dx_grid = sig_ref.grid
if sig_ref.latitude and not self.dx_latitude:
self.dx_latitude = sig_ref.latitude
self.dx_longitude = sig_ref.longitude
if self.sig == "WAB" or self.sig == "WAI":
self.dx_location_source = "WAB/WAI GRID"
else:
self.dx_location_source = "SIG REF LOOKUP"
# If the spot itself doesn't have a SIG yet, but we have at least one SIG reference, take that reference's SIG
# and apply it to the whole spot.
if self.sig_refs and len(self.sig_refs) > 0 and not self.sig:
self.sig = self.sig_refs[0].sig
# Icon from SIG if we have one
if self.sig:
self.icon = get_icon_for_sig(self.sig)
# DX Grid to lat/lon and vice versa
# Default "radio" icon if nothing else has set it
if not self.icon:
self.icon = "tower-cell"
# DX Grid to lat/lon and vice versa in case one is missing
if self.dx_grid and not self.dx_latitude:
ll = locator_to_latlong(self.dx_grid)
self.dx_latitude = ll[0]
@@ -246,21 +314,6 @@ class Spot:
self.dx_grid = latlong_to_locator(self.dx_latitude, self.dx_longitude, 8)
except:
logging.debug("Invalid lat/lon received for 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:
@@ -270,14 +323,23 @@ class Spot:
# the actual spotting 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.
if self.dx_call and not self.dx_name:
self.dx_name = lookup_helper.infer_name_from_callsign(self.dx_call)
self.dx_name = lookup_helper.infer_name_from_callsign_online_lookup(self.dx_call)
if self.dx_call and not self.dx_latitude:
latlon = lookup_helper.infer_latlon_from_callsign_qrz(self.dx_call)
latlon = lookup_helper.infer_latlon_from_callsign_online_lookup(self.dx_call)
if latlon:
self.dx_latitude = latlon[0]
self.dx_longitude = latlon[1]
self.dx_grid = lookup_helper.infer_grid_from_callsign_qrz(self.dx_call)
self.dx_location_source = "QRZ"
self.dx_grid = lookup_helper.infer_grid_from_callsign_online_lookup(self.dx_call)
self.dx_location_source = "HOME QTH"
# Determine a "QTH" string. If we have a SIG ref, pick the first one and turn it into a suitable stirng,
# otherwise see what they have set on an online lookup service.
if self.sig_refs and len(self.sig_refs) > 0:
self.dx_qth = self.sig_refs[0].id
if self.sig_refs[0].name:
self.dx_qth = self.dx_qth + " " + self.sig_refs[0].name
else:
self.dx_qth = lookup_helper.infer_qth_from_callsign_online_lookup(self.dx_call)
# Last resort for getting a DX position, use the DXCC entity.
if self.dx_call and not self.dx_latitude:
@@ -290,21 +352,23 @@ 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_source == "WAB/WAI GRID" or (
self.dx_location_source == "QRZ" and not "/" in self.dx_call)
self.dx_location_good = self.dx_latitude and self.dx_longitude and (
self.dx_location_source == "SPOT" or self.dx_location_source == "SIG REF LOOKUP"
or self.dx_location_source == "WAB/WAI GRID"
or (self.dx_location_source == "HOME QTH" and not "/" in self.dx_call))
# DE with no digits and APRS servers starting "T2" are not things we can look up location for
if any(char.isdigit() for char in self.de_call) and not (self.de_call.startswith("T2") and self.source == "APRS-IS"):
if self.de_call and any(char.isdigit() for char in self.de_call) and not (self.de_call.startswith("T2") and self.source == "APRS-IS"):
# DE operator position lookup, using QRZ.com.
if self.de_call and not self.de_latitude:
latlon = lookup_helper.infer_latlon_from_callsign_qrz(self.de_call)
if not self.de_latitude:
latlon = lookup_helper.infer_latlon_from_callsign_online_lookup(self.de_call)
if latlon:
self.de_latitude = latlon[0]
self.de_longitude = latlon[1]
self.de_grid = lookup_helper.infer_grid_from_callsign_qrz(self.de_call)
self.de_grid = lookup_helper.infer_grid_from_callsign_online_lookup(self.de_call)
# Last resort for getting a DE position, use the DXCC entity.
if self.de_call and not self.de_latitude:
if not self.de_latitude:
latlon = lookup_helper.infer_latlon_from_callsign_dxcc(self.de_call)
if latlon:
self.de_latitude = latlon[0]
@@ -321,6 +385,26 @@ class Spot:
self_copy.received_time_iso = ""
self.id = hashlib.sha256(str(self_copy).encode("utf-8")).hexdigest()
# JSON serialise
# JSON sspoterialise
def to_json(self):
return json.dumps(self, default=lambda o: o.__dict__, sort_keys=True)
# Append a sig_ref to the list, so long as it's not already there.
def append_sig_ref_if_missing(self, new_sig_ref):
if not self.sig_refs:
self.sig_refs = []
new_sig_ref.id = new_sig_ref.id.strip().upper()
new_sig_ref.sig = new_sig_ref.sig.strip().upper()
if new_sig_ref.id == "":
return
for sig_ref in self.sig_refs:
if sig_ref.id == new_sig_ref.id and sig_ref.sig == new_sig_ref.sig:
return
self.sig_refs.append(new_sig_ref)
# Decide if this spot has expired (in which case it should not be added to the system in the first place, and not
# returned by the web server if later requested, and removed by the cleanup functions). "Expired" is defined as
# either having a time further ago than the server's MAX_SPOT_AGE. If it somehow doesn't have a time either, it is
# considered to be expired.
def expired(self):
return not self.time or self.time < (datetime.now(pytz.UTC) - timedelta(seconds=MAX_SPOT_AGE)).timestamp()

155
server/webserver.py
View File

@@ -1,16 +1,19 @@
import json
import logging
import re
from datetime import datetime, timedelta
from threading import Thread
import bottle
import pytz
from bottle import run, request, response, template
from prometheus_client import CONTENT_TYPE_LATEST, generate_latest
from core.config import MAX_SPOT_AGE, ALLOW_SPOTTING
from core.constants import BANDS, ALL_MODES, MODE_TYPES, SIGS, CONTINENTS, SOFTWARE_VERSION
from core.prometheus_metrics_handler import page_requests_counter, registry, get_metrics, api_requests_counter
from core.config import MAX_SPOT_AGE, ALLOW_SPOTTING, WEB_UI_OPTIONS
from core.constants import BANDS, ALL_MODES, MODE_TYPES, SIGS, CONTINENTS, SOFTWARE_VERSION, UNKNOWN_BAND
from core.lookup_helper import lookup_helper
from core.prometheus_metrics_handler import page_requests_counter, get_metrics, api_requests_counter
from core.sig_utils import get_ref_regex_for_sig, populate_sig_ref_info
from data.sig_ref import SIGRef
from data.spot import Spot
@@ -33,18 +36,22 @@ class WebServer:
# Base template data
bottle.BaseTemplate.defaults['software_version'] = SOFTWARE_VERSION
bottle.BaseTemplate.defaults['allow_spotting'] = ALLOW_SPOTTING
# Routes for API calls
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.get("/api/v1/lookup/call")(lambda: self.serve_call_lookup_api())
bottle.get("/api/v1/lookup/sigref")(lambda: self.serve_sig_ref_lookup_api())
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("/add-spot")(lambda: self.serve_template('webpage_add_spot'))
bottle.get("/status")(lambda: self.serve_template('webpage_status'))
bottle.get("/about")(lambda: self.serve_template('webpage_about'))
bottle.get("/apidocs")(lambda: self.serve_template('webpage_apidocs'))
@@ -95,6 +102,83 @@ class WebServer:
response.status = 500
return json.dumps("Error - " + str(e), default=serialize_everything)
# Look up data for a callsign
def serve_call_lookup_api(self):
try:
# Reject if no callsign
query = bottle.request.query
if not "call" in query.keys():
response.content_type = 'application/json'
response.status = 422
return json.dumps("Error - call must be provided", default=serialize_everything)
call = query.get("call").upper()
# Reject badly formatted callsigns
if not re.match(r"^[A-Za-z0-9/\-]*$", call):
response.content_type = 'application/json'
response.status = 422
return json.dumps("Error - '" + call + "' does not look like a valid callsign.",
default=serialize_everything)
# Take the callsign, make a "fake spot" so we can run infer_missing() on it, then repack the resulting data
# in the correct way for the API response.
fake_spot = Spot(dx_call=call)
fake_spot.infer_missing()
return self.serve_api({
"call": call,
"name": fake_spot.dx_name,
"qth": fake_spot.dx_qth,
"country": fake_spot.dx_country,
"flag": fake_spot.dx_flag,
"continent": fake_spot.dx_continent,
"dxcc_id": fake_spot.dx_dxcc_id,
"cq_zone": fake_spot.dx_cq_zone,
"itu_zone": fake_spot.dx_itu_zone,
"grid": fake_spot.dx_grid,
"latitude": fake_spot.dx_latitude,
"longitude": fake_spot.dx_longitude,
"location_source": fake_spot.dx_location_source
})
except Exception as e:
logging.error(e)
response.content_type = 'application/json'
response.status = 500
return json.dumps("Error - " + str(e), default=serialize_everything)
# Look up data for a SIG reference
def serve_sig_ref_lookup_api(self):
try:
# Reject if no sig or sig_ref
query = bottle.request.query
if not "sig" in query.keys() or not "id" in query.keys():
response.content_type = 'application/json'
response.status = 422
return json.dumps("Error - sig and id must be provided", default=serialize_everything)
sig = query.get("sig").upper()
id = query.get("id").upper()
# Reject if sig unknown
if not sig in list(map(lambda p: p.name, SIGS)):
response.content_type = 'application/json'
response.status = 422
return json.dumps("Error - sig '" + sig + "' is not known.", default=serialize_everything)
# Reject if sig_ref format incorrect for sig
if get_ref_regex_for_sig(sig) and not re.match(get_ref_regex_for_sig(sig), id):
response.content_type = 'application/json'
response.status = 422
return json.dumps("Error - '" + id + "' does not look like a valid reference ID for " + sig + ".", default=serialize_everything)
data = populate_sig_ref_info(SIGRef(id=id, sig=sig))
return self.serve_api(data)
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)
@@ -137,16 +221,53 @@ class WebServer:
json_spot = json.loads(post_data)
spot = Spot(**json_spot)
# Reject if no timestamp or dx_call
if not spot.time or not spot.dx_call:
# Converting to a spot object this way won't have coped with sig_ref objects, so fix that. (Would be nice to
# redo this in a functional style)
if spot.sig_refs:
real_sig_refs = []
for dict_obj in spot.sig_refs:
real_sig_refs.append(json.loads(json.dumps(dict_obj), object_hook=lambda d: SIGRef(**d)))
spot.sig_refs = real_sig_refs
# Reject if no timestamp, frequency, dx_call or de_call
if not spot.time or not spot.dx_call or not spot.freq or not spot.de_call:
response.content_type = 'application/json'
response.status = 422
return json.dumps("Error - 'time' and 'dx_call' must be provided as a minimum.",
return json.dumps("Error - 'time', 'dx_call', 'freq' and 'de_call' must be provided as a minimum.",
default=serialize_everything)
# Reject invalid-looking callsigns
if not re.match(r"^[A-Za-z0-9/\-]*$", spot.dx_call):
response.content_type = 'application/json'
response.status = 422
return json.dumps("Error - '" + spot.dx_call + "' does not look like a valid callsign.",
default=serialize_everything)
if not re.match(r"^[A-Za-z0-9/\-]*$", spot.de_call):
response.content_type = 'application/json'
response.status = 422
return json.dumps("Error - '" + spot.de_call + "' does not look like a valid callsign.",
default=serialize_everything)
# Reject if frequency not in a known band
if lookup_helper.infer_band_from_freq(spot.freq) == UNKNOWN_BAND:
response.content_type = 'application/json'
response.status = 422
return json.dumps("Error - Frequency of " + str(spot.freq / 1000.0) + "kHz is not in a known band.", default=serialize_everything)
# Reject if grid formatting incorrect
if spot.dx_grid and not re.match(r"^([A-R]{2}[0-9]{2}[A-X]{2}[0-9]{2}[A-X]{2}|[A-R]{2}[0-9]{2}[A-X]{2}[0-9]{2}|[A-R]{2}[0-9]{2}[A-X]{2}|[A-R]{2}[0-9]{2})$", spot.dx_grid.upper()):
response.content_type = 'application/json'
response.status = 422
return json.dumps("Error - '" + spot.dx_grid + "' does not look like a valid Maidenhead grid.", default=serialize_everything)
# Reject if sig_ref format incorrect for sig
if spot.sig and spot.sig_refs and len(spot.sig_refs) > 0 and spot.sig_refs[0].id and get_ref_regex_for_sig(spot.sig) and not re.match(get_ref_regex_for_sig(spot.sig), spot.sig_refs[0].id):
response.content_type = 'application/json'
response.status = 422
return json.dumps("Error - '" + spot.sig_refs[0].id + "' does not look like a valid reference for " + spot.sig + ".", default=serialize_everything)
# infer missing data, and add it to our database.
spot.source = "API"
spot.icon = "desktop"
spot.infer_missing()
self.spots.add(spot.id, spot, expire=MAX_SPOT_AGE)
@@ -215,11 +336,14 @@ 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
# If a list of sigs is provided, the spot must have a sig and it must match one of them.
# The special "sig" "NO_SIG", when supplied in the list, mathches spots with no sig.
sigs = query.get(k).split(",")
spots = [s for s in spots if s.sig and s.sig in sigs]
include_no_sig = "NO_SIG" in sigs
spots = [s for s in spots if (s.sig and s.sig in sigs) or (include_no_sig and not s.sig)]
case "needs_sig":
# If true, a sig is required, regardless of what it is, it just can't be missing.
# If true, a sig is required, regardless of what it is, it just can't be missing. Mutually
# exclusive with supplying the special "NO_SIG" parameter to the "sig" query param.
needs_sig = query.get(k).upper() == "TRUE"
if needs_sig:
spots = [s for s in spots if s.sig]
@@ -298,7 +422,6 @@ class WebServer:
if a is not None:
alerts.append(a)
# We never want alerts that seem to be in the past
alerts = list(filter(lambda alert: not alert.expired(), alerts))
alerts = sorted(alerts, key=lambda alert: (alert.start_time if alert and alert.start_time else 0))
for k in query.keys():
match k:
@@ -318,8 +441,11 @@ class WebServer:
sources = query.get(k).split(",")
alerts = [a for a in alerts if a.source and a.source in sources]
case "sig":
# If a list of sigs is provided, the alert must have a sig and it must match one of them.
# The special "sig" "NO_SIG", when supplied in the list, mathches alerts with no sig.
sigs = query.get(k).split(",")
alerts = [a for a in alerts if a.sig and a.sig in sigs]
include_no_sig = "NO_SIG" in sigs
spots = [a for a in alerts if (a.sig and a.sig in sigs) or (include_no_sig and not a.sig)]
case "dx_continent":
dxconts = query.get(k).split(",")
alerts = [a for a in alerts if a.dx_continent and a.dx_continent in dxconts]
@@ -346,7 +472,8 @@ class WebServer:
map(lambda p: p["name"], filter(lambda p: p["enabled"], self.status_data["alert_providers"]))),
"continents": CONTINENTS,
"max_spot_age": MAX_SPOT_AGE,
"spot_allowed": ALLOW_SPOTTING}
"spot_allowed": ALLOW_SPOTTING,
"web-ui-options": WEB_UI_OPTIONS}
# If spotting to this server is enabled, "API" is another valid spot source even though it does not come from
# one of our proviers.
if ALLOW_SPOTTING:

19
spotproviders/dxcluster.py
View File

@@ -8,8 +8,6 @@ import pytz
import telnetlib3
from core.config import SERVER_OWNER_CALLSIGN
from core.sig_utils import ANY_SIG_REGEX, get_icon_for_sig, get_ref_regex_for_sig
from data.sig_ref import SIGRef
from data.spot import Spot
from spotproviders.spot_provider import SpotProvider
@@ -74,24 +72,9 @@ class DXCluster(SpotProvider):
de_call=match.group(1),
freq=float(match.group(2)) * 1000,
comment=match.group(4).strip(),
icon="desktop",
icon="tower-cell",
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 = [SIGRef(id=sig_ref_match.group(3).upper())]
# Add to our list
self.submit(spot)

82
spotproviders/gma.py
View File

@@ -1,11 +1,10 @@
import logging
from datetime import datetime, timedelta
from datetime import datetime
import pytz
from requests_cache import CachedSession
from core.cache_utils import SEMI_STATIC_URL_DATA_CACHE
from core.constants import HTTP_HEADERS
from core.sig_utils import get_icon_for_sig
from data.sig_ref import SIGRef
from data.spot import Spot
from spotproviders.http_spot_provider import HTTPSpotProvider
@@ -17,8 +16,6 @@ class GMA(HTTPSpotProvider):
SPOTS_URL = "https://www.cqgma.org/api/spots/25/"
# GMA spots don't contain the details of the programme they are for, we need a separate lookup for that
REF_INFO_URL_ROOT = "https://www.cqgma.org/api/ref/?"
REF_INFO_CACHE_TIME_DAYS = 30
REF_INFO_CACHE = CachedSession("cache/gma_ref_info_cache", expire_after=timedelta(days=REF_INFO_CACHE_TIME_DAYS))
def __init__(self, provider_config):
super().__init__(provider_config, self.SPOTS_URL, self.POLL_INTERVAL_SEC)
@@ -36,7 +33,7 @@ class GMA(HTTPSpotProvider):
mode=source_spot["MODE"].upper() if "<>" not in source_spot["MODE"] else None,
# Filter out some weird mode strings
comment=source_spot["TEXT"],
sig_refs=[SIGRef(id=source_spot["REF"], name=source_spot["NAME"], url="https://www.cqgma.org/zinfo.php?ref=" + source_spot["REF"])],
sig_refs=[SIGRef(id=source_spot["REF"], sig="", name=source_spot["NAME"])],
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,
@@ -44,36 +41,47 @@ class GMA(HTTPSpotProvider):
dx_longitude=float(source_spot["LON"]) if (source_spot["LON"] and source_spot["LON"] != "") else None)
# GMA doesn't give what programme (SIG) the reference is for until we separately look it up.
ref_response = self.REF_INFO_CACHE.get(self.REF_INFO_URL_ROOT + source_spot["REF"],
headers=HTTP_HEADERS)
# Sometimes this is blank, so handle that
if ref_response.text is not None and ref_response.text != "":
ref_info = ref_response.json()
# If this is POTA, SOTA or WWFF data we already have it through other means, so ignore. POTA and WWFF
# spots come through with reftype=POTA or reftype=WWFF. SOTA is harder to figure out because both SOTA
# and GMA summits come through with reftype=Summit, so we must check for the presence of a "sota" entry
# to determine if it's a SOTA summit.
if ref_info["reftype"] not in ["POTA", "WWFF"] and (ref_info["reftype"] != "Summit" or ref_info["sota"] == ""):
match ref_info["reftype"]:
case "Summit":
spot.sig = "GMA"
case "IOTA Island":
spot.sig = "IOTA"
case "Lighthouse (ILLW)":
spot.sig = "ILLW"
case "Lighthouse (ARLHS)":
spot.sig = "ARLHS"
case "Castle":
spot.sig = "WCA"
case "Mill":
spot.sig = "MOTA"
case _:
logging.warn("GMA spot found with ref type " + ref_info[
"reftype"] + ", developer needs to add support for this!")
spot.sig = ref_info["reftype"]
spot.icon = get_icon_for_sig(spot.sig)
if "REF" in source_spot:
try:
ref_response = SEMI_STATIC_URL_DATA_CACHE.get(self.REF_INFO_URL_ROOT + source_spot["REF"],
headers=HTTP_HEADERS)
# Sometimes this is blank, so handle that
if ref_response.text is not None and ref_response.text != "":
ref_info = ref_response.json()
# If this is POTA, SOTA or WWFF data we already have it through other means, so ignore. POTA and WWFF
# spots come through with reftype=POTA or reftype=WWFF. SOTA is harder to figure out because both SOTA
# and GMA summits come through with reftype=Summit, so we must check for the presence of a "sota" entry
# to determine if it's a SOTA summit.
if "reftype" in ref_info and ref_info["reftype"] not in ["POTA", "WWFF"] and (
ref_info["reftype"] != "Summit" or "sota" not in ref_info or ref_info["sota"] == ""):
match ref_info["reftype"]:
case "Summit":
spot.sig_refs[0].sig = "GMA"
spot.sig = "GMA"
case "IOTA Island":
spot.sig_refs[0].sig = "IOTA"
spot.sig = "IOTA"
case "Lighthouse (ILLW)":
spot.sig_refs[0].sig = "ILLW"
spot.sig = "ILLW"
case "Lighthouse (ARLHS)":
spot.sig_refs[0].sig = "ARLHS"
spot.sig = "ARLHS"
case "Castle":
spot.sig_refs[0].sig = "WCA"
spot.sig = "WCA"
case "Mill":
spot.sig_refs[0].sig = "MOTA"
spot.sig = "MOTA"
case _:
logging.warn("GMA spot found with ref type " + ref_info[
"reftype"] + ", developer needs to add support for this!")
spot.sig_refs[0].sig = ref_info["reftype"]
spot.sig = ref_info["reftype"]
# 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)
# 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)
except:
logging.warn("Exception when looking up " + self.REF_INFO_URL_ROOT + source_spot["REF"] + ", ignoring this spot for now")
return new_spots

4
spotproviders/hema.py
View File

@@ -5,7 +5,6 @@ import pytz
import requests
from core.constants import HTTP_HEADERS
from core.sig_utils import get_icon_for_sig
from data.sig_ref import SIGRef
from data.spot import Spot
from spotproviders.http_spot_provider import HTTPSpotProvider
@@ -54,8 +53,7 @@ class HEMA(HTTPSpotProvider):
mode=freq_mode_match.group(2).upper(),
comment=spotter_comment_match.group(2),
sig="HEMA",
sig_refs=[SIGRef(id=spot_items[3].upper(), name=spot_items[4])],
icon=get_icon_for_sig("HEMA"),
sig_refs=[SIGRef(id=spot_items[3].upper(), sig="HEMA", name=spot_items[4])],
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]))

30
spotproviders/parksnpeaks.py
View File

@@ -1,13 +1,9 @@
import csv
import logging
import re
from datetime import datetime, timedelta
from datetime import datetime
import pytz
from requests_cache import CachedSession
from core.constants import HTTP_HEADERS
from core.sig_utils import get_icon_for_sig
from data.sig_ref import SIGRef
from data.spot import Spot
from spotproviders.http_spot_provider import HTTPSpotProvider
@@ -18,8 +14,6 @@ class ParksNPeaks(HTTPSpotProvider):
POLL_INTERVAL_SEC = 120
SPOTS_URL = "https://www.parksnpeaks.org/api/ALL"
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))
def __init__(self, provider_config):
super().__init__(provider_config, self.SPOTS_URL, self.POLL_INTERVAL_SEC)
@@ -38,9 +32,8 @@ class ParksNPeaks(HTTPSpotProvider):
# Seen PNP spots with empty frequency, and with comma-separated thousands digits
mode=source_spot["actMode"].upper(),
comment=source_spot["actComments"],
sig=source_spot["actClass"],
sig_refs=[SIGRef(id=source_spot["actSiteID"])],
icon=get_icon_for_sig(source_spot["actClass"]),
sig=source_spot["actClass"].upper(),
sig_refs=[SIGRef(id=source_spot["actSiteID"], sig=source_spot["actClass"].upper())],
time=datetime.strptime(source_spot["actTime"], "%Y-%m-%d %H:%M:%S").replace(
tzinfo=pytz.UTC).timestamp())
@@ -54,24 +47,11 @@ class ParksNPeaks(HTTPSpotProvider):
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"]:
if spot.sig_refs[0].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":
siota_csv_data = self.SIOTA_LIST_CACHE.get(self.SIOTA_LIST_URL, headers=HTTP_HEADERS)
siota_dr = csv.DictReader(siota_csv_data.content.decode().splitlines())
for row in siota_dr:
if row["SILO_CODE"] == spot.sig_refs[0]:
spot.dx_latitude = float(row["LAT"])
spot.dx_longitude = float(row["LNG"])
spot.dx_grid = row["LOCATOR"]
break
# Note there is currently no support for KRMNPA location lookup, see issue #61.
# 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"]:
if spot.sig_refs[0].sig not in ["POTA", "SOTA", "WWFF", "ZLOTA"]:
new_spots.append(spot)
return new_spots

27
spotproviders/pota.py
View File

@@ -1,11 +1,7 @@
import re
from datetime import datetime, timedelta
from datetime import datetime
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.sig_ref import SIGRef
from data.spot import Spot
from spotproviders.http_spot_provider import HTTPSpotProvider
@@ -17,9 +13,6 @@ class POTA(HTTPSpotProvider):
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)
@@ -37,29 +30,13 @@ class POTA(HTTPSpotProvider):
mode=source_spot["mode"].upper(),
comment=source_spot["comments"],
sig="POTA",
sig_refs=[SIGRef(id=source_spot["reference"], name=source_spot["name"], url="https://pota.app/#/park/" + source_spot["reference"])],
icon=get_icon_for_sig("POTA"),
sig_refs=[SIGRef(id=source_spot["reference"], sig="POTA", name=source_spot["name"])],
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 list(map(lambda ref: ref.id, spot.sig_refs)):
ref = SIGRef(id=r.upper(), url="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:
ref.name = park_data["name"]
# Finally append our new reference to the spot's reference list
spot.sig_refs.append(ref)
# 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)

20
spotproviders/sota.py
View File

@@ -1,11 +1,8 @@
import logging
from datetime import datetime, timedelta
from datetime import datetime
import requests
from requests_cache import CachedSession
from core.constants import HTTP_HEADERS
from core.sig_utils import get_icon_for_sig
from data.sig_ref import SIGRef
from data.spot import Spot
from spotproviders.http_spot_provider import HTTPSpotProvider
@@ -21,8 +18,6 @@ class SOTA(HTTPSpotProvider):
SPOTS_URL = "https://api-db2.sota.org.uk/api/spots/60/all/all"
# SOTA spots don't contain lat/lon, we need a separate lookup for that
SUMMIT_URL_ROOT = "https://api-db2.sota.org.uk/api/summits/"
SUMMIT_DATA_CACHE_TIME_DAYS = 30
SUMMIT_DATA_CACHE = CachedSession("cache/sota_summit_data_cache", expire_after=timedelta(days=SUMMIT_DATA_CACHE_TIME_DAYS))
def __init__(self, provider_config):
super().__init__(provider_config, self.EPOCH_URL, self.POLL_INTERVAL_SEC)
@@ -50,21 +45,10 @@ class SOTA(HTTPSpotProvider):
mode=source_spot["mode"].upper(),
comment=source_spot["comments"],
sig="SOTA",
sig_refs=[SIGRef(id=source_spot["summitCode"], name=source_spot["summitName"], url="https://www.sotadata.org.uk/en/summit/" + source_spot["summitCode"])],
icon=get_icon_for_sig("SOTA"),
sig_refs=[SIGRef(id=source_spot["summitCode"], sig="SOTA", name=source_spot["summitName"])],
time=datetime.fromisoformat(source_spot["timeStamp"]).timestamp(),
activation_score=source_spot["points"])
# SOTA doesn't give summit lat/lon/grid in the main call, so we need another separate call for this
try:
summit_response = self.SUMMIT_DATA_CACHE.get(self.SUMMIT_URL_ROOT + source_spot["summitCode"], headers=HTTP_HEADERS)
summit_data = summit_response.json()
spot.dx_grid = summit_data["locator"]
spot.dx_latitude = summit_data["latitude"]
spot.dx_longitude = summit_data["longitude"]
except Exception:
logging.warn("Looking up summit " + source_spot["summitCode"] + " from the SOTA API failed. No summit data was available.")
# 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)

15
spotproviders/spot_provider.py
View File

@@ -2,8 +2,7 @@ from datetime import datetime
import pytz
from core.constants import SOFTWARE_NAME, SOFTWARE_VERSION
from core.config import SERVER_OWNER_CALLSIGN, MAX_SPOT_AGE
from core.config import MAX_SPOT_AGE
# Generic spot provider class. Subclasses of this query the individual APIs for data.
@@ -35,8 +34,9 @@ class SpotProvider:
if datetime.fromtimestamp(spot.time, pytz.UTC) > self.last_spot_time:
# Fill in any blanks
spot.infer_missing()
# Add to the list
self.spots.add(spot.id, spot, expire=MAX_SPOT_AGE)
# Add to the list, provided it heas not already expired.
if not spot.expired():
self.spots.add(spot.id, spot, expire=MAX_SPOT_AGE)
self.last_spot_time = datetime.fromtimestamp(max(map(lambda s: s.time, spots)), pytz.UTC)
# Submit a single spot retrieved from the provider. This will be added to the list regardless of its age. Spots
@@ -45,9 +45,10 @@ class SpotProvider:
def submit(self, spot):
# Fill in any blanks
spot.infer_missing()
# Add to the list
self.spots.add(spot.id, spot, expire=MAX_SPOT_AGE)
self.last_spot_time = datetime.fromtimestamp(spot.time, pytz.UTC)
# Add to the list, provided it heas not already expired.
if not spot.expired():
self.spots.add(spot.id, spot, expire=MAX_SPOT_AGE)
self.last_spot_time = datetime.fromtimestamp(spot.time, pytz.UTC)
# Stop any threads and prepare for application shutdown
def stop(self):

1
spotproviders/sse_spot_provider.py
View File

@@ -9,6 +9,7 @@ from requests_sse import EventSource
from core.constants import HTTP_HEADERS
from spotproviders.spot_provider import SpotProvider
# Spot provider using Server-Sent Events.
class SSESpotProvider(SpotProvider):

5
spotproviders/ukpacketnet.py
View File

@@ -1,11 +1,8 @@
import re
from datetime import datetime, timedelta
from datetime import datetime
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

101
spotproviders/wota.py
View File

@@ -1,11 +1,10 @@
from datetime import timedelta, datetime
import logging
import re
from datetime import 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.sig_ref import SIGRef
from data.spot import Spot
from spotproviders.http_spot_provider import HTTPSpotProvider
@@ -16,8 +15,6 @@ 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):
@@ -29,60 +26,52 @@ class WOTA(HTTPSpotProvider):
# 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
try:
# 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 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]
# Pick apart the description
desc_split = source_spot.description.split(". ")
freq_mode = desc_split[0].replace("Frequencies/modes:", "").strip()
freq_mode_split = re.split(r'[\-\s]+', freq_mode)
freq_hz = float(freq_mode_split[0]) * 1000000
if len(freq_mode_split) > 1:
mode = freq_mode_split[1].upper()
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()
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(".", "").upper().strip()
time = datetime.strptime(source_spot.pub_date.content, self.RSS_DATE_TIME_FORMAT).astimezone(pytz.UTC)
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=[SIGRef(id=ref, name=ref_name, url="https://www.wota.org.uk/MM_" + ref)] if ref else [],
icon=get_icon_for_sig("WOTA"),
time=time.timestamp())
# 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=[SIGRef(id=ref, sig="WOTA", name=ref_name)] if ref else [],
time=time.timestamp())
# WOTA name/grid/lat/lon lookup
if ref:
wota_data = self.LIST_CACHE.get(self.LIST_URL, headers=HTTP_HEADERS).json()
for feature in wota_data["features"]:
if feature["properties"]["wotaId"] == ref:
spot.sig_refs[0].name = 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)
new_spots.append(spot)
except Exception as e:
logging.error("Exception parsing WOTA spot", e)
return new_spots

7
spotproviders/wwbota.py
View File

@@ -1,7 +1,6 @@
import json
from datetime import datetime
from core.sig_utils import get_icon_for_sig
from data.sig_ref import SIGRef
from data.spot import Spot
from spotproviders.sse_spot_provider import SSESpotProvider
@@ -20,10 +19,7 @@ class WWBOTA(SSESpotProvider):
# n-fer activations.
refs = []
for ref in source_spot["references"]:
sigref = SIGRef(id=ref["reference"], name=ref["name"])
# Bunkerbase URLs only work for UK bunkers, so only add a URL if we have a B/G prefix.
if ref["reference"].startswith("B/G"):
sigref.url="https://bunkerwiki.org/?s=" + ref["reference"]
sigref = SIGRef(id=ref["reference"], sig="WWBOTA", name=ref["name"])
refs.append(sigref)
spot = Spot(source=self.name,
@@ -34,7 +30,6 @@ class WWBOTA(SSESpotProvider):
comment=source_spot["comment"],
sig="WWBOTA",
sig_refs=refs,
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

@@ -2,7 +2,6 @@ from datetime import datetime
import pytz
from core.sig_utils import get_icon_for_sig
from data.sig_ref import SIGRef
from data.spot import Spot
from spotproviders.http_spot_provider import HTTPSpotProvider
@@ -29,8 +28,7 @@ class WWFF(HTTPSpotProvider):
mode=source_spot["mode"].upper(),
comment=source_spot["remarks"],
sig="WWFF",
sig_refs=[SIGRef(id=source_spot["reference"], name=source_spot["reference_name"], url="https://wwff.co/directory/?showRef=" + source_spot["reference"])],
icon=get_icon_for_sig("WWFF"),
sig_refs=[SIGRef(id=source_spot["reference"], sig="WWFF", name=source_spot["reference_name"])],
time=datetime.fromtimestamp(source_spot["spot_time"], tz=pytz.UTC).timestamp(),
dx_latitude=source_spot["latitude"],
dx_longitude=source_spot["longitude"])

43
spotproviders/xota.py Normal file
View File

@@ -0,0 +1,43 @@
from datetime import datetime
from data.sig_ref import SIGRef
from data.spot import Spot
from spotproviders.http_spot_provider import HTTPSpotProvider
# Spot provider for servers based on the "xOTA" software at https://github.com/nischu/xOTA/
# The provider typically doesn't give us a lat/lon or SIG explicitly, so our own config provides this information. This
# functionality is implemented for TOTA events.
class XOTA(HTTPSpotProvider):
POLL_INTERVAL_SEC = 120
FIXED_LATITUDE = None
FIXED_LONGITUDE = None
SIG = None
def __init__(self, provider_config):
super().__init__(provider_config, provider_config["url"] + "/api/spot/all", self.POLL_INTERVAL_SEC)
self.FIXED_LATITUDE = provider_config["latitude"] if "latitude" in provider_config else None
self.FIXED_LONGITUDE = provider_config["longitude"] if "longitude" in provider_config else None
self.SIG = provider_config["sig"] if "sig" in provider_config else None
def http_response_to_spots(self, http_response):
new_spots = []
# Iterate through source data
for source_spot in http_response.json():
# Convert to our spot format
spot = Spot(source=self.name,
source_id=source_spot["id"],
dx_call=source_spot["stationCallSign"].upper(),
freq=float(source_spot["freq"]) * 1000,
mode=source_spot["mode"].upper(),
sig=self.SIG,
sig_refs=[SIGRef(id=source_spot["reference"]["title"], sig=self.SIG, url=source_spot["reference"]["website"])],
time=datetime.fromisoformat(source_spot["modificationDate"]).timestamp(),
dx_latitude=self.FIXED_LATITUDE,
dx_longitude=self.FIXED_LONGITUDE,
qrt=source_spot["state"] != "active")
# 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)
return new_spots

21
spotproviders/zlota.py
View File

@@ -1,13 +1,7 @@
import csv
import logging
import re
from datetime import datetime, timedelta
from datetime import datetime
import pytz
from requests_cache import CachedSession
from core.constants import HTTP_HEADERS
from core.sig_utils import get_icon_for_sig
from data.sig_ref import SIGRef
from data.spot import Spot
from spotproviders.http_spot_provider import HTTPSpotProvider
@@ -18,8 +12,6 @@ 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)
@@ -42,17 +34,8 @@ class ZLOTA(HTTPSpotProvider):
mode=source_spot["mode"].upper().strip(),
comment=source_spot["comments"],
sig="ZLOTA",
sig_refs=[SIGRef(id=source_spot["reference"], name=source_spot["name"])],
icon=get_icon_for_sig("ZLOTA"),
sig_refs=[SIGRef(id=source_spot["reference"], sig="ZLOTA", name=source_spot["name"])],
time=datetime.fromisoformat(source_spot["referenced_time"]).astimezone(pytz.UTC).timestamp())
# ZLOTA 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.dx_latitude = asset["y"]
spot.dx_longitude = asset["x"]
break
new_spots.append(spot)
return new_spots

41
views/webpage_about.tpl
View File

@@ -3,28 +3,45 @@
<div id="info-container" class="mt-4">
<h2 class="mt-4 mb-4">About Spothole</h2>
<p>Spothole is a utility to aggregate "spots" from amateur radio DX clusters and xOTA spotting sites, and provide an open JSON API as well as a website to browse the data.</p>
<p>While there are several other web-based interfaces to DX clusters, and sites that aggregate spots from various outdoor activity programmes for amateur radio, Spothole differentiates itself by supporting a large number of data sources, and by being "API first" rather than just providing a web front-end. This allows other software to be built on top of it.</p>
<p>While there are several other web-based interfaces to DX clusters, and sites that aggregate spots from various outdoor activity programmes for amateur radio, Spothole differentiates itself by supporting a larger number of data sources, and by being "API first" rather than just providing a web front-end. This allows other software to be built on top of it.</p>
<p>The API is deliberately well-defined with an <a href="/apidocs/openapi.yml">OpenAPI specification</a> and <a href="/apidocs">API documentation</a>. The API delivers spots in a consistent format regardless of the data source, freeing developers from needing to know how each individual data source presents its data.</p>
<p>Spothole itself is also open source, Public Domain licenced code that anyone can take and modify. <a href="https://git.ianrenton.com/ian/metaspot/">The source code is here</a>. If you want to run your own copy of Spothole, or start modifying it for your own purposes, the <a href="https://git.ianrenton.com/ian/spothole/src/branch/main/README.md">README file</a> contains a description of how the software works and how it's laid out, as well as instructions for configuring systemd, nginx and anything else you might need to run your own server.</p>
<p>The software was written by <a href="https://ianrenton.com">Ian Renton, MØTRT</a> and other contributors. Full details are available in the README.</p>
<p>Spothole itself is also open source, Public Domain licenced code that anyone can take and modify. <a href="https://git.ianrenton.com/ian/metaspot/">The source code is here</a>.</p>
<p>The software was written by <a href="https://ianrenton.com">Ian Renton, MØTRT</a> and other contributors. Full details are available in the <a href="https://git.ianrenton.com/ian/spothole/src/branch/main/README.md">README file</a>.</p>
<p>This server is running Spothole version {{software_version}}.</p>
<h2 class="mt-4 mb-4">Using Spothole</h2>
<p>There are a number of different ways to use Spothole, depending on what you want to do with it and your level of technical skill:</p>
<ol><li>You can <b>use it on the web</b>, like you are (probably) doing right now. This is how most people use it, to look up spots and alerts, and make interesting QSOs.</li>
<li>If you are using an Android or iOS device, you can <b>"install" it on your device</b>. Spothole is a Progressive Web App, meaning it's not delivered through app stores, but if you open the page on Chrome (Android) or Safari (iOS) there will be an option in the menu to install it. It will then appear in your main app menu.</li>
<li>You can <b>embed the web interface in another website</b> to show its spots in a custom dashboard or the like. The usage is explained in more detail in the <a href="https://git.ianrenton.com/ian/spothole/src/branch/main/README.md">README file</a>.</li>
<li>You can <b>write your own client using the Spothole API</b>, using the main Spothole instance to provide data, and do whatever you like with it. The README contains guidance on how to do this, and the full API docs are linked above. You can also find reference implementations in the form of Spothole's own web-based front end, plus my other two tools built on Spothole: <a href="https://fieldspotter.radio">Field Spotter</a> and the <a href="https://qsomap.m0trt.radio">QSO Map Tool</a>.</li>
<li>If you want to <b>run your own version of Spothole</b> so you can customise the configuration, such as enabling sources that I disable on the main instance, you can do that too. The README contains not only advice on how to set up Spothole but how to get it auto-starting with systemd, using an nginx reverse proxy, and setting up HTTPS support with certbot.</li>
<li>Finally, you can of course download the source code and <b>develop Spothole to meet your needs</b>. Whether you contribute your changes back to the main repository is up to you. As usual, the README file contains some advice on the structure of the repository, and how to get started writing your own spot provider.</li></ol>
<h2 id="faq" class="mt-4">FAQ</h2>
<h4 class="mt-4">"Spots"? "DX Clusters"? What does any of this mean?</h4>
<p>This is a tool for amateur ("ham") radio users. Many amateur radio operators like to make contacts with others who are doing something more interesting than sitting in their home "shack", such as people in rarely-seen countries, remote islands, or on mountaintops. Such operators are often "spotted", i.e. when someone speaks to them, they will put the details such as their operating frequency into an online system, to let others know where to find them. A DX Cluster is one type of those systems. Most outdoor radio awards programmes, such as "Parks on the Air" (POTA) have their own websites for posting spots.</p>
<p>Spothole is an "aggregator" for those spots, so it checks lots of different services for data, and brings it all together in one place. So no matter what kinds of interesting spots you are looking for, you can find them here.</p>
<p>As well as spots, it also provides a similar feed of "alerts". This is where amateur radio users who are going to interesting places soon will announce their intentions.</p>
<h4 class="mt-4">What are "DX", "DE" and modes?</h4>
<p>In amateur radio terminology, the "DX" contact is the "interesting" one that is using the frequency shown. They might be on a remote island or just in a local park, but either way it's interesting enough that someone has "spotted" them. The callsign listed under "DE" is the person who spotted the "DX" operator. "Modes" are the type of communication they are using. You might see "CW" which is Morse Code, or voice "modes" like SSB or FM, or more exotic "data" modes which are used for computer-to-computer communication.</p>
<p>In amateur radio terminology, the "DX" contact is the "interesting" one that is using the frequency shown and looking for callers. They might be on a remote island or just in a local park, but either way it's interesting enough that someone has "spotted" them. The callsign listed under "DE" is the person who entered the spot of the "DX" operator. "Modes" are the type of communication they are using. For example you might see "CW" which is Morse Code, or voice "modes" like SSB or FM, or more exotic "data" modes which are used for computer-to-computer communication.</p>
<h4 class="mt-4">What data sources are supported?</h4>
<p>Spothole can retrieve spots from: Telnet-based DX clusters, the Reverse Beacon Network (RBN), the APRS Internet Service (APRS-IS), POTA, SOTA, WWFF, GMA, WWBOTA, HEMA, Parks 'n' Peaks, ZLOTA, WOTA, and the UK Packet Repeater Network.</p>
<p>Spothole can retrieve alerts from: NG3K, POTA, SOTA, WWFF, Parks 'n' Peaks, WOTA and BOTA.</p>
<p>Spothole can retrieve spots from: <a href="https://www.dxcluster.info/telnet/">Telnet-based DX clusters</a>, the <a href="https://www.reversebeacon.net/">Reverse Beacon Network (RBN)</a>, the <a href="https://www.aprs-is.net/">APRS Internet Service (APRS-IS)</a>, <a href="https://pota.app">POTA</a>, <a href="https://www.sota.org.uk/">SOTA</a>, <a href="https://wwff.co/">WWFF</a>, <a href="https://www.cqgma.org/">GMA</a>, <a href="https://wwbota.net/">WWBOTA</a>, <a href="http://www.hema.org.uk/">HEMA</a>, <a href="https://www.parksnpeaks.org/">Parks 'n' Peaks</a>, <a href="https://ontheair.nz">ZLOTA</a>, <a href="https://www.wota.org.uk/">WOTA</a>, the <a href="https://ukpacketradio.network/">UK Packet Repeater Network</a>, and any site based on the <a href="https://github.com/nischu/xOTA">xOTA software by nischu</a>.</p>
<p>Spothole can retrieve alerts from: <a href="https://www.ng3k.com/">NG3K</a>, <a href="https://pota.app">POTA</a>, <a href="https://www.sota.org.uk/">SOTA</a>, <a href="https://wwff.co/">WWFF</a>, <a href="https://www.parksnpeaks.org/">Parks 'n' Peaks</a>, <a href="https://www.wota.org.uk/">WOTA</a> and <a href="https://www.beachesontheair.com/">BOTA</a>.</p>
<p>Note that the server owner has not necessarily enabled all these data sources. In particular it is common to disable RBN, to avoid the server being swamped with FT8 traffic, and to disable APRS-IS and UK Packet Net so that the server only displays stations where there is likely to be an operator physically present for a QSO.</p>
<p>Between the various data sources, the following Special Interest Groups (SIGs) are supported: POTA, SOTA, WWFF, GMA, WWBOTA, HEMA, IOTA, MOTS, ARLHS, ILLW, SIOTA, WCA, ZLOTA, KRMNPA, WOTA, BOTA, WAB & WAI.</p>
<p>Between the various data sources, the following Special Interest Groups (SIGs) are supported: Parks on the Air (POTA), Summits on the Air (SOTA), Worldwide Flora & Fauna (WWFF), Global Mountain Activity (GMA), Worldwide Bunkers on the Air (WWBOTA), HuMPs Excluding Marilyns Award (HEMA), Islands on the Air (IOTA), Mills on the Air (MOTA), the Amateur Radio Lighthouse Socirty (ARLHS), International Lighthouse Lightship Weekend (ILLW), Silos on the Air (SIOTA), World Castles Award (WCA), New Zealand on the Air (ZLOTA), Keith Roget Memorial National Parks Award (KRMNPA), Wainwrights on the Air (WOTA), Beaches on the Air (BOTA), Worked All Britain (WAB), Worked All Ireland (WAI), and Toilets on the Air (TOTA).</p>
<p>As of the time of writing in November 2025, I think Spothole captures essentially all outdoor radio programmes that have a defined reference list, and almost certainly those that have a spotting/alerting API. If you know of one I've missed, please let me know!</p>
<h4 class="mt-4">Why can I filter spots by both SIG and Source? Isn't that basically the same thing?</h4>
<p>Mostly, but not quite. While POTA spots generally come from the POTA source and so on, there are a few exceptions:</p>
<ol><li>Sources like GMA and Parks 'n' Peaks provide spots for multiple different programmes (SIGs).</li>
<li>Cluster spots may name SIGs in their comment, in which case the source remains the Cluster, but a SIG is assigned.</li>
<li>Some SIGs, such as Worked all Britain (WAB), don't have their own spotting site and can <em>only</em> be identified through comments on spots retrieved from other sources.</li>
<li>SIGs have well-defined names, whereas the server owner may name the sources as they see fit.</li></ol>
<p>Spothole's web interface exists not just for the end user, but also as a reference implementation for the API, so I have chosen to demonstrate both methods of filtering.</p>
<h4 class="mt-4">How is this better than DXheat, DXsummit, POTA's own website, etc?</h4>
<p>It's probably not? But it's nice to have choice.</p>
<p>I think it's got two key advantages over those sites:</p>
<p>I think it's got three key advantages over those sites:</p>
<ol><li>It provides a public, <a href="/apidocs">well-documented API</a> with an <a href="/apidocs/openapi.yml">OpenAPI specification</a>. Other sites don't have official APIs or don't bother documenting them publicly, because they want people to use their web page. I like Spothole's web page, but you don't have to use it&mdash;if you're a programmer, you can build your own software on Spothole's API. Spothole does the hard work of taking all the various data sources and providing a consistent, well-documented data set. You can then do the fun bit of writing your own application.</li>
<li>It grabs data from a lot more sources, and it's easy to add more. Since it's open source, anyone can contribute a new data source and share it with the community.</li></ol>
<li>It grabs data from a lot more sources. I've seen other sites that pull in DX Cluster and POTA spots together, but nothing on the scale of what Spothole supports.</li>
<li>Spothole is open source, so anyone can contribute the code to support a new data source or add new features, and share them with the community.</li></ol>
<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>
@@ -32,6 +49,8 @@
<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 class="mt-4">Data Accuracy</h2>
<p>Please note that the data coming out of Spothole is only as good as the data going in. People mis-hear and make typos when spotting callsigns all the time. There are also plenty of cases where Spothole's data, particularly location data, may be inaccurate. For example, there are POTA parks that span multiple US states, countries that span multiple CQ zones, portable operators with no requirement to sign /P, etc. If you are doing something where accuracy is important, such as contesting, you should not rely on Spothole's data to fill in any gaps in your log.</p>
<h2 id="privacy" class="mt-4">Privacy</h2>
<p>Spothole collects no data about you, and there is no way to enter personally identifying information into the site apart from by spotting and alerting through Spothole or the various services it connects to. All spots and alerts are "timed out" and deleted from the system after a set interval, which by default is one hour for spots and one week for alerts.</p>
<p>Settings you select from Spothole's menus are sent to the server, in order to provide the data with the requested filters. They are also stored in your browser's local storage, so that your preferences are remembered between sessions.</p>
@@ -39,7 +58,9 @@
<p>Spothole is open source, so you can audit <a href="https://git.ianrenton.com/ian/spothole">the code</a> if you like.</p>
<h2 class="mt-4">Thanks</h2>
<p>This project would not have been possible without those volunteers who have taken it upon themselves to run DX clusters, xOTA programmes, DXpedition lists, callsign lookup databases, and other online tools on which Spothole's data is based.</p>
<p>Spothole is also dependent on a number of Python libraries, in particular pyhamtools, and many JavaScript libraries, as well as the Font Awesome icon set.</p>
<p>Spothole is also dependent on a number of Python libraries, in particular pyhamtools, and many JavaScript libraries, as well as the Font Awesome icon set and flag icons from the Noto Color Emoji set.</p>
<p>This software is dedicated to the memory of Tom G1PJB, SK, a friend and colleague who sadly passed away around the time I started writing it in Autumn 2025. I was looking forward to showing it to you when it was done.</p>
</div>
<script src="/js/common.js?v=1"></script>
<script>$(document).ready(function() { $("#nav-link-about").addClass("active"); }); <!-- highlight active page in nav --></script>

73
views/webpage_add_spot.tpl Normal file
View File

@@ -0,0 +1,73 @@
% rebase('webpage_base.tpl')
<div id="add-spot-intro-box" class="permanently-dismissible-box mt-3">
<div class="alert alert-primary alert-dismissible fade show" role="alert">
<i class="fa-solid fa-circle-info"></i> <strong>Adding spots to Spothole</strong><br/>This page is implemented as a proof of concept for adding spots to the Spothole system. Currently, spots added in this way are only visible within Spothole and are not sent "upstream" to DX clusters or xOTA spotting sites. The functionality might be extended to include this in future if there is demand for it. If you'd like this to be added, please give a thumbs-up on <a href="https://git.ianrenton.com/ian/spothole/issues/39" target="_new" class="alert-link">issue #39</a> or get in touch via email.
<button type="button" id="add-spot-intro-box-dismiss" class="btn-close" data-bs-dismiss="alert" aria-label="Close"></button>
</div>
</div>
<div class="mt-3">
<div id="add-spot-area" class="card mb-3">
<div class="card-header text-white bg-primary">
<div class="row">
<div class="col-auto me-auto">
Add a Spot
</div>
</div>
</div>
<div class="card-body">
<form class="row g-3">
<div class="col-auto">
<label for="dx-call" class="form-label">DX Call *</label>
<input type="text" class="form-control" id="dx-call" placeholder="N0CALL" style="max-width: 8em;">
</div>
<div class="col-auto">
<label for="freq" class="form-label">Frequency (kHz) *</label>
<input type="text" class="form-control" id="freq" placeholder="e.g. 14100" style="max-width: 8em;">
</div>
<div class="col-auto">
<label for="mode" class="form-label">Mode</label>
<select id="mode" class="form-select">
<option value="" selected></option>
</select>
</div>
<div class="col-auto">
<label for="sig" class="form-label">SIG</label>
<select id="sig" class="form-select">
<option value="" selected></option>
</select>
</div>
<div class="col-auto">
<label for="sig-ref" class="form-label">SIG Reference</label>
<input type="text" class="form-control" id="sig-ref" placeholder="e.g. GB-0001" style="max-width: 8em;">
</div>
<div class="col-auto">
<label for="dx-grid" class="form-label">DX Grid</label>
<input type="text" class="form-control" id="dx-grid" placeholder="e.g. AA00aa" style="max-width: 8em;">
</div>
<div class="col-auto">
<label for="comment" class="form-label">Comment</label>
<input type="text" class="form-control" id="comment" placeholder="e.g. 59 TNX QSO 73" style="max-width: 12em;">
</div>
<div class="col-auto">
<label for="de-call" class="form-label">Your Call *</label>
<input type="text" class="form-control storeable-text" id="de-call" placeholder="N0CALL" style="max-width: 8em;">
</div>
<div class="col-auto">
<button type="button" class="btn btn-primary" style="margin-top: 2em;" onclick="addSpot();">Spot</button>
</div>
</form>
<div id="result-good"></div>
<div id="result-bad"></div>
<p class="small mt-4 mb-1">* Required field</p>
</div>
</div>
</div>
<script src="/js/common.js?v=1"></script>
<script src="/js/add-spot.js?v=1"></script>
<script>$(document).ready(function() { $("#nav-link-add-spot").addClass("active"); }); <!-- highlight active page in nav --></script>

24
views/webpage_alerts.tpl
View File

@@ -1,7 +1,7 @@
% rebase('webpage_base.tpl')
<div class="mt-3">
<div class="row">
<div id="settingsButtonRow" class="row">
<div class="col-auto me-auto pt-3">
<p id="timing-container">Loading...</p>
</div>
@@ -101,17 +101,25 @@
<h5 class="card-title">Number of Alerts</h5>
<p class="card-text spothole-card-text">Show up to
<select id="alerts-to-fetch" class="storeable-select form-select ms-2" oninput="filtersUpdated();" style="width: 5em;display: inline-block;">
<option value="25">25</option>
<option value="50">50</option>
<option value="100" selected>100</option>
<option value="200">200</option>
<option value="500">500</option>
</select>
alerts
</p>
</div>
</div>
</div>
<div class="col">
<div class="card">
<div class="card-body">
<h5 class="card-title">Theme</h5>
<div class="form-group">
<div class="form-check form-check-inline">
<input class="form-check-input storeable-checkbox" type="checkbox" id="darkMode" value="darkMode" oninput="toggleDarkMode();">
<label class="form-check-label" for="darkMode">Dark mode</label>
</div>
</div>
</div>
</div>
</div>
<div class="col">
<div class="card">
<div class="card-body">
@@ -157,6 +165,6 @@
</div>
<script src="/js/common.js"></script>
<script src="/js/alerts.js"></script>
<script src="/js/common.js?v=1"></script>
<script src="/js/alerts.js?v=1"></script>
<script>$(document).ready(function() { $("#nav-link-alerts").addClass("active"); }); <!-- highlight active page in nav --></script>

53
views/webpage_bands.tpl
View File

@@ -1,7 +1,7 @@
% rebase('webpage_base.tpl')
<div class="mt-3">
<div class="row">
<div id="settingsButtonRow" class="row">
<div class="col-auto me-auto pt-3">
<p id="timing-container">Loading...</p>
</div>
@@ -26,7 +26,7 @@
</div>
<div class="card-body">
<div class="row row-cols-1 g-4 mb-4">
<div class="row row-cols-1 g-4 mb-4 row-cols-md-3">
<div class="col">
<div class="card">
<div class="card-body">
@@ -35,8 +35,24 @@
</div>
</div>
</div>
<div class="col">
<div class="card">
<div class="card-body">
<h5 class="card-title">SIGs</h5>
<p id="sig-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 class="row row-cols-1 row-cols-md-4 g-4">
<div class="row row-cols-1 row-cols-md-3 g-4">
<div class="col">
<div class="card">
<div class="card-body">
@@ -61,14 +77,6 @@
</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>
@@ -93,16 +101,25 @@
<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 class="col">
<div class="card">
<div class="card-body">
<h5 class="card-title">Theme</h5>
<div class="form-group">
<div class="form-check form-check-inline">
<input class="form-check-input storeable-checkbox" type="checkbox" id="darkMode" value="darkMode" oninput="toggleDarkMode();">
<label class="form-check-label" for="darkMode">Dark mode</label>
</div>
</div>
</div>
</div>
</div>
</div>
</div>
</div>
@@ -111,7 +128,7 @@
</div>
<script src="/js/common.js"></script>
<script src="/js/spotandmap.js"></script>
<script src="/js/bands.js"></script>
<script src="/js/common.js?v=1"></script>
<script src="/js/spotsbandsandmap.js?v=1"></script>
<script src="/js/bands.js?v=1"></script>
<script>$(document).ready(function() { $("#nav-link-bands").addClass("active"); }); <!-- highlight active page in nav --></script>

17
views/webpage_base.tpl
View File

@@ -3,7 +3,7 @@
<head>
<meta charset="utf-8"/>
<meta name="viewport" content="width=device-width, initial-scale=1.0, viewport-fit=cover">
<meta name="color-scheme" content="light">
<meta name="color-scheme" content="light dark">
<meta name="theme-color" content="white"/>
<meta name="mobile-web-app-capable" content="yes">
<meta name="apple-mobile-web-app-capable" content="yes">
@@ -48,20 +48,23 @@
</head>
<body>
<div class="container">
<nav class="navbar navbar-expand-lg bg-body p-0 border-bottom">
<nav id="header" class="navbar navbar-expand-lg bg-body p-0 border-bottom">
<div class="container-fluid p-0">
<a class="navbar-brand" href="/">
<img src="/img/logo.png" width="192" height="60" alt="Spothole">
<img src="/img/logo.png" class="logo" width="192" height="60" alt="Spothole">
</a>
<button class="navbar-toggler" type="button" data-bs-toggle="collapse" data-bs-target="#navbarTogglerDemo02" aria-controls="navbarTogglerDemo02" aria-expanded="false" aria-label="Toggle navigation">
<button class="navbar-toggler" type="button" data-bs-toggle="collapse" data-bs-target="#navbar-toggler-content" aria-controls="navbar-toggler-content" aria-expanded="false" aria-label="Toggle navigation">
<span class="navbar-toggler-icon"></span>
</button>
<div class="collapse navbar-collapse" id="navbarTogglerDemo02">
<div class="collapse navbar-collapse" id="navbar-toggler-content">
<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"><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>
% if allow_spotting:
<li class="nav-item ms-4"><a href="/add-spot" class="nav-link" id="nav-link-add-spot"><i class="fa-solid fa-comment"></i> Add Spot</a></li>
% end
<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>
@@ -76,7 +79,7 @@
</main>
<div class="hideonmobile hideonmap">
<div id="footer" class="hideonmobile hideonmap">
<footer class="d-flex flex-wrap justify-content-between align-items-center py-3 my-4 border-top">
<p class="col-md-4 mb-0 text-body-secondary">Made with love by <a href="https://ianrenton.com" class="text-body-secondary">Ian, MØTRT</a> and other contributors.</p>
<p class="col-md-4 mb-0 justify-content-center text-body-secondary" style="text-align: center;">Spothole v{{software_version}}</p>
@@ -98,5 +101,7 @@
</div>
</div>
<div id="embeddedModeFooter" class="text-body-secondary pt-2 px-3 pb-1">Powered by <img src="/img/logo.png" class="logo" width="96" height="30" alt="Spothole"></div>
</body>
</html>

53
views/webpage_map.tpl
View File

@@ -1,7 +1,7 @@
% rebase('webpage_base.tpl')
<div id="map">
<div class="mt-3 px-3" style="z-index: 1002; position: relative;">
<div id="settingsButtonRowMap" class="mt-3 px-3" style="z-index: 1002; position: relative;">
<div class="row">
<div class="col-auto me-auto pt-3"></div>
<div class="col-auto">
@@ -25,7 +25,7 @@
</div>
<div class="card-body">
<div class="row row-cols-1 g-4 mb-4">
<div class="row row-cols-1 g-4 mb-4 row-cols-md-3">
<div class="col">
<div class="card">
<div class="card-body">
@@ -34,8 +34,24 @@
</div>
</div>
</div>
<div class="col">
<div class="card">
<div class="card-body">
<h5 class="card-title">SIGs</h5>
<p id="sig-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 class="row row-cols-1 row-cols-md-4 g-4">
<div class="row row-cols-1 row-cols-md-3 g-4">
<div class="col">
<div class="card">
<div class="card-body">
@@ -60,14 +76,6 @@
</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>
@@ -92,10 +100,6 @@
<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>
@@ -115,6 +119,19 @@
</div>
</div>
</div>
<div class="col">
<div class="card">
<div class="card-body">
<h5 class="card-title">Theme</h5>
<div class="form-group">
<div class="form-check form-check-inline">
<input class="form-check-input storeable-checkbox" type="checkbox" id="darkMode" value="darkMode" oninput="toggleDarkMode();">
<label class="form-check-label" for="darkMode">Dark mode</label>
</div>
</div>
</div>
</div>
</div>
</div>
</div>
</div>
@@ -129,7 +146,7 @@
<script src="https://cdn.jsdelivr.net/npm/leaflet.geodesic"></script>
<script src="https://cdn.jsdelivr.net/npm/@joergdietrich/leaflet.terminator@1.1.0/L.Terminator.min.js"></script>
<script src="/js/common.js"></script>
<script src="/js/spotandmap.js"></script>
<script src="/js/map.js"></script>
<script src="/js/common.js?v=1"></script>
<script src="/js/spotsbandsandmap.js?v=1"></script>
<script src="/js/map.js?v=1"></script>
<script>$(document).ready(function() { $("#nav-link-map").addClass("active"); }); <!-- highlight active page in nav --></script>

135
views/webpage_spots.tpl
View File

@@ -1,6 +1,6 @@
% rebase('webpage_base.tpl')
<div id="intro-box" class="mt-3">
<div id="intro-box" class="permanently-dismissible-box mt-3">
<div class="alert alert-primary alert-dismissible fade show" role="alert">
<i class="fa-solid fa-circle-info"></i> <strong>What is Spothole?</strong><br/>Spothole is an aggregator of amateur radio spots from DX clusters and outdoor activity programmes. It's free for anyone to use and includes an API that developers can build other applications on. For more information, check out the <a href="/about" class="alert-link">"About" page</a>. If that sounds like nonsense to you, you can visit <a href="/about#faq" class="alert-link">the FAQ section</a> to learn more.
<button type="button" id="intro-box-dismiss" class="btn-close" data-bs-dismiss="alert" aria-label="Close"></button>
@@ -8,17 +8,16 @@
</div>
<div class="mt-3">
<div class="row">
<div id="settingsButtonRow" 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">
<div style="position: relative; display: inline-block; top: 2px;">
<i class="fa-solid fa-magnifying-glass" style="position: absolute; left: 0px; padding: 10px; pointer-events: none;"></i>
<input id="filter-dx-call" type="text" class="form-control hideonmobile me-3" oninput="filtersUpdated();" placeholder="Search for call" style="max-width: 10em; padding-left: 2em;">
</div>
<button id="add-spot-button" type="button" class="btn btn-outline-primary" data-bs-toggle="button" onclick="toggleAddSpotPanel();"><i class="fa-solid fa-comment"></i> Add Spot</button>
<span style="position: relative;">
<i class="fa-solid fa-magnifying-glass" style="position: absolute; left: 0px; top: 2px; padding: 10px; pointer-events: none;"></i>
<input id="filter-dx-call" type="search" class="form-control" oninput="filtersUpdated();" placeholder="Callsign">
</span>
<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>
@@ -38,7 +37,7 @@
</div>
<div class="card-body">
<div class="row row-cols-1 g-4 mb-4">
<div class="row row-cols-1 g-4 mb-4 row-cols-md-3">
<div class="col">
<div class="card">
<div class="card-body">
@@ -47,8 +46,24 @@
</div>
</div>
</div>
<div class="col">
<div class="card">
<div class="card-body">
<h5 class="card-title">SIGs</h5>
<p id="sig-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 class="row row-cols-1 row-cols-md-4 g-4">
<div class="row row-cols-1 row-cols-md-3 g-4">
<div class="col">
<div class="card">
<div class="card-body">
@@ -73,14 +88,6 @@
</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>
@@ -118,16 +125,36 @@
<h5 class="card-title">Number of Spots</h5>
<p class="card-text spothole-card-text">Show up to
<select id="spots-to-fetch" class="storeable-select form-select ms-2 me-2 d-inline-block" oninput="filtersUpdated();" style="width: 5em; display: inline-block;">
<option value="10">10</option>
<option value="25">25</option>
<option value="50" selected>50</option>
<option value="100">100</option>
</select>
spots
</p>
</div>
</div>
</div>
<div class="col">
<div class="card">
<div class="card-body">
<h5 class="card-title">Location</h5>
<div class="form-group spothole-card-text">
<label for="userGrid">Your grid:</label>
<input type="text" class="storeable-text form-control" id="userGrid" placeholder="AA00aa" oninput="userGridUpdated();" style="width: 10em; display: inline-block;">
</div>
</div>
</div>
</div>
<div class="col">
<div class="card">
<div class="card-body">
<h5 class="card-title">Theme</h5>
<div class="form-group">
<div class="form-check form-check-inline">
<input class="form-check-input storeable-checkbox" type="checkbox" id="darkMode" value="darkMode" oninput="toggleDarkMode();">
<label class="form-check-label" for="darkMode">Dark mode</label>
</div>
</div>
</div>
</div>
</div>
<div class="col">
<div class="card">
<div class="card-body">
@@ -173,66 +200,6 @@
</div>
</div>
</div>
<div class="col">
<div class="card">
<div class="card-body">
<h5 class="card-title">Location</h5>
<div class="form-group spothole-card-text">
<label for="userGrid">Your grid:</label>
<input type="text" class="storeable-text form-control" id="userGrid" placeholder="AA00aa" oninput="userGridUpdated();" style="width: 10em; display: inline-block;">
</div>
</div>
</div>
</div>
</div>
</div>
</div>
<div id="add-spot-area" class="appearing-panel card mb-3">
<div class="card-header text-white bg-primary">
<div class="row">
<div class="col-auto me-auto">
Add a Spot
</div>
<div class="col-auto d-inline-flex">
<button id="close-add-spot-button" type="button" class="btn-close btn-close-white" aria-label="Close" onclick="closeAddSpotPanel();"></button>
</div>
</div>
</div>
<div class="card-body">
<form class="row g-2">
<div class="col-auto">
<label for="add-spot-dx-call" class="form-label">DX Call</label>
<input type="text" class="form-control" id="add-spot-dx-call" placeholder="N0CALL" style="max-width: 8em;">
</div>
<div class="col-auto">
<label for="add-spot-freq" class="form-label">Frequency (kHz)</label>
<input type="text" class="form-control" id="add-spot-freq" placeholder="14100" style="max-width: 8em;">
</div>
<div class="col-auto">
<label for="add-spot-mode" class="form-label">Mode</label>
<input type="text" class="form-control" id="add-spot-mode" placeholder="SSB" style="max-width: 6em;">
</div>
<div class="col-auto">
<label for="add-spot-comment" class="form-label">Comment</label>
<input type="text" class="form-control" id="add-spot-comment" placeholder="59 TNX QSO 73" style="max-width: 12em;">
</div>
<div class="col-auto">
<label for="add-spot-de-call" class="form-label">Your Call</label>
<input type="text" class="form-control" id="add-spot-de-call" placeholder="N0CALL" style="max-width: 8em;">
</div>
<div class="col-auto">
<button type="button" class="btn btn-primary" style="margin-top: 2em;" onclick="addSpot();">Spot</button>
<span id="post-spot-result-good"></span>
</div>
</form>
<div id="post-spot-result-bad"></div>
<div class="alert alert-warning alert-dismissible fade show mb-0 mt-4" role="alert">
Please note that spots added to Spothole are not currently sent "upstream" to DX clusters or xOTA spotting sites.
<button type="button" class="btn-close" data-bs-dismiss="alert" aria-label="Close"></button>
</div>
</div>
</div>
@@ -241,7 +208,7 @@
</div>
<script src="/js/common.js"></script>
<script src="/js/spotandmap.js"></script>
<script src="/js/spots.js"></script>
<script src="/js/common.js?v=1"></script>
<script src="/js/spotsbandsandmap.js?v=1"></script>
<script src="/js/spots.js?v=1"></script>
<script>$(document).ready(function() { $("#nav-link-spots").addClass("active"); }); <!-- highlight active page in nav --></script>

4
views/webpage_status.tpl
View File

@@ -2,6 +2,6 @@
<div id="status-container" class="row row-cols-1 row-cols-md-4 g-4 mt-4"></div>
<script src="/js/common.js"></script>
<script src="/js/status.js"></script>
<script src="/js/common.js?v=1"></script>
<script src="/js/status.js?v=1"></script>
<script>$(document).ready(function() { $("#nav-link-status").addClass("active"); }); <!-- highlight active page in nav --></script>

749
webassets/apidocs/openapi.yml
View File

@@ -5,6 +5,10 @@ info:
Spothole is a utility to aggregate "spots" from amateur radio DX clusters and xOTA spotting sites, and provide an open JSON API as well as a website to browse the data.
While there are other web-based interfaces to DX clusters, and sites that aggregate spots from various outdoor activity programmes for amateur radio, Spothole differentiates itself by supporting a large number of data sources, and by being "API first" rather than just providing a web front-end. This allows other software to be built on top of it. Spothole itself is also open source, Public Domain licenced code that anyone can take and modify.
The API calls described below allow third-party software to access data from Spothole, and receive data on spots and alerts in a consistent format regardless of the data sources used by Spothole itself. Utility calls are also provided for general data lookups.
Please note that the data coming out of Spothole is only as good as the data going in. People mis-hear and make typos when spotting callsigns all the time, and there are plenty of areas where Spothole's location data may be inaccurate. If you are doing something where accuracy is important, such as contesting, you should not rely on Spothole's data to fill in any gaps in your log.
contact:
email: ian@ianrenton.com
license:
@@ -17,7 +21,7 @@ paths:
/spots:
get:
tags:
- spots
- Spots
summary: Get spots
description: The main API call that retrieves spots from the system. Supply this with no query parameters to retrieve all spots known to the system. Supply query parameters to filter what is retrieved.
operationId: spots
@@ -51,49 +55,16 @@ paths:
description: "Limit the spots to only ones from one or more sources. To select more than one source, supply a comma-separated list."
required: false
schema:
type: string
enum:
- POTA
- SOTA
- WWFF
- WWBOTA
- GMA
- HEMA
- ParksNPeaks
- ZLOTA
- WOTA
- BOTA
- Cluster
- RBN
- APRS-IS
- UKPacketNet
$ref: "#/components/schemas/Source"
- name: sig
in: query
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."
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. The special `sig` name `NO_SIG` matches spots with no sig set. You can use `sig=NO_SIG` to specifically only return generic spots with no associated SIG. You can also use combinations to request for example POTA + no SIG, but reject other SIGs. If you want to request 'every SIG and not No SIG', see the `needs_sig` query parameter for a shortcut."
required: false
schema:
type: string
enum:
- POTA
- SOTA
- WWFF
- WWBOTA
- GMA
- HEMA
- WCA
- MOTA
- SIOTA
- ARLHS
- ILLW
- ZLOTA
- IOTA
- WOTA
- BOTA
- WAB
- WAI
$ref: "#/components/schemas/SIGNameIncludingNoSIG"
- 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."
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 the equivalent of supplying the `sig` query param with a list of every known SIG apart from the special `NO_SIG` value. This is what Field Spotter uses to exclude generic cluster spots and only retrieve xOTA things."
required: false
schema:
type: boolean
@@ -110,96 +81,31 @@ paths:
description: "Limit the spots to only ones from one or more bands. To select more than one band, supply a comma-separated list."
required: false
schema:
type: string
enum:
- 160m
- 80m
- 60m
- 40m
- 30m
- 20m
- 17m
- 15m
- 12m
- 10m
- 6m
- 4m
- 2m
- 70cm
- 23cm
- 13cm
$ref: "#/components/schemas/BandName"
- name: mode
in: query
description: "Limit the spots to only ones from one or more modes. To select more than one mode, supply a comma-separated list."
required: false
schema:
type: string
enum:
- CW
- PHONE
- SSB
- USB
- LSB
- AM
- FM
- DV
- DMR
- DSTAR
- C4FM
- M17
- DIGI
- DATA
- FT8
- FT4
- RTTY
- SSTV
- JS8
- HELL
- BPSK
- PSK
- BPSK31
- OLIVIA
- MFSK
- MFSK32
- PKT
$ref: "#/components/schemas/Mode"
- name: mode_type
in: query
description: "Limit the spots to only ones from one or more mode families. To select more than one mode family, supply a comma-separated list."
required: false
schema:
type: string
enum:
- CW
- PHONE
- DATA
$ref: "#/components/schemas/Mode"
- name: dx_continent
in: query
description: "Limit the spots 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."
required: false
schema:
type: string
enum:
- EU
- NA
- SA
- AS
- AF
- OC
- AN
$ref: "#/components/schemas/Continent"
- name: de_continent
in: query
description: "Limit the spots to only ones where the spotteris on the given continent(s). To select more than one continent, supply a comma-separated list."
required: false
schema:
type: string
enum:
- EU
- NA
- SA
- AS
- AF
- OC
- AN
$ref: "#/components/schemas/Continent"
- name: dedupe
in: query
description: "\"De-duplicate\" the spots, returning only the latest spot for any given callsign."
@@ -247,7 +153,7 @@ paths:
/alerts:
get:
tags:
- alerts
- Alerts
summary: Get alerts
description: Retrieves alerts (indications of upcoming activations) from the system. Supply this with no query parameters to retrieve all alerts known to the system. Supply query parameters to filter what is retrieved.
operationId: spots
@@ -281,60 +187,19 @@ paths:
description: "Limit the alerts to only ones from one or more sources. To select more than one source, supply a comma-separated list."
required: false
schema:
type: string
enum:
- POTA
- SOTA
- WWFF
- WWBOTA
- GMA
- HEMA
- ParksNPeaks
- ZLOTA
- WOTA
- BOTA
- Cluster
- RBN
- APRS-IS
- UKPacketNet
$ref: "#/components/schemas/Source"
- name: sig
in: query
description: "Limit the alerts to only ones from one or more Special Interest Groups. To select more than one SIG, supply a comma-separated list."
description: "Limit the alerts to only ones from one or more Special Interest Groups. To select more than one SIG, supply a comma-separated list. The special value 'NO_SIG' can be included to return alerts specifically without an associated SIG (i.e. general DXpeditions)."
required: false
schema:
type: string
enum:
- POTA
- SOTA
- WWFF
- WWBOTA
- GMA
- HEMA
- WCA
- MOTA
- SIOTA
- ARLHS
- ILLW
- ZLOTA
- IOTA
- WOTA
- BOTA
- WAB
- WAI
$ref: "#/components/schemas/SIGNameIncludingNoSIG"
- name: dx_continent
in: query
description: "Limit the alerts to only ones where the DX operator is on the given continent(s). To select more than one continent, supply a comma-separated list."
required: false
schema:
type: string
enum:
- EU
- NA
- SA
- AS
- AF
- OC
- AN
$ref: "#/components/schemas/Continent"
- name: dx_call_includes
in: query
description: "Limit the alerts to only ones where the DX callsign includes the supplied string (case-insensitive). Generally a complete callsign, but you can supply a shorter string for partial matches."
@@ -355,7 +220,7 @@ paths:
/status:
get:
tags:
- general
- General
summary: Get server status
description: Query information about the server for use in a diagnostics display.
operationId: status
@@ -432,9 +297,9 @@ paths:
/options:
get:
tags:
- general
- General
summary: Get enumeration options
description: Retrieves the list of options for various enumerated types, which can be found in the spots and also provided back to the API as query parameters. While these enumerated options are defined in this spec anyway, providing them in an API call allows us to define extra parameters, like the colours associated with bands, and also allows clients to set up their filters and features without having to have internal knowledge about, for example, what bands the server knows about.
description: Retrieves the list of options for various enumerated types, which can be found in the spots and also provided back to the API as query parameters. While these enumerated options are defined in this spec anyway, providing them in an API call allows us to define extra parameters, like the colours associated with bands, and also allows clients to set up their filters and features without having to have internal knowledge about, for example, what bands the server knows about. The call also returns a variety of other parameters that may be of use to a web UI, including the contents of the "web-ui-options" config section, which provides guidance for web UI implementations such as the built-in one on sensible configuration options such as the number of spots/alerts to retrieve, or the maximum age of spots to retrieve.
operationId: options
responses:
'200':
@@ -486,14 +351,164 @@ paths:
type: boolean
description: Whether the POST /spot call, to add spots to the server directly via its API, is permitted on this server.
example: true
web-ui-options:
type: object
properties:
spot-count:
type: array
description: An array of suggested "spot counts" that the web UI can retrieve from the API
items:
type: integer
example: 50
spot-count-default:
type: integer
example: 50
description: The suggested default "spot count" that the web UI should retrieve from the API
max-spot-age:
type: array
description: An array of suggested "maximum spot ages" that the web UI can retrieve from the API
items:
type: integer
example: 30
max-spot-age-default:
type: integer
example: 30
description: The suggested default "maximum spot age" that the web UI should retrieve from the API
alert-count:
type: array
description: An array of suggested "alert counts" that the web UI can retrieve from the API
items:
type: integer
example: 100
alert-count-default:
type: integer
example: 100
description: The suggested default "alert count" that the web UI should retrieve from the API
/lookup/call:
get:
tags:
- Utilities
summary: Look up callsign details
description: Perform a lookup of data about a certain callsign, using any of the lookup services available to the Spothole server.
operationId: call
parameters:
- name: call
in: query
description: A callsign
required: true
type: string
example: M0TRT
responses:
'200':
description: Success
content:
application/json:
schema:
type: object
properties:
call:
type: string
description: Callsign, as provided to the API
example: M0TRT
name:
type: string
description: Name of the operator
example: Ian
qth:
type: string
description: QTH of the operator. This could be from any SIG refs or could be from online lookup of their home QTH.
example: Dorset
country:
type: string
description: Country of the operator. Note that this is named "country" for commonality with other amateur radio tools, but in reality this is more of a "DXCC Name", as it includes many options which are not countries, just territories that DXCC uniquely identifies.
example: England
flag:
type: string
description: Country flag of the operator. This is limited to the range of emoji flags. For some DXCCs there may not be an official emoji flag, e.g. Northern Ireland, so the appearance may vary depending on your browser and operating system. Some small islands may also have no flag. Many DXCCs may also share a flag, e.g. mainland Spain, Balearic Islands, etc.
example: ""
continent:
description: Continent of the operator
$ref: "#/components/schemas/Continent"
dxcc_id:
type: integer
description: DXCC ID of the operator
example: 235
cq_zone:
type: integer
description: CQ zone of the operator
example: 27
itu_zone:
type: integer
description: ITU zone of the operator
example: 14
grid:
type: string
description: Maidenhead grid locator for the operator's QTH. This could be from an online lookup service, or just based on the DXCC.
example: IO91aa
latitude:
type: number
description: Latitude of the operator's QTH, in degrees. This could be from an online lookup service, or just based on the DXCC.
example: 51.2345
longitude:
type: number
description: Longitude of the opertor's QTH, in degrees. This could be from an online lookup service, or just based on the DXCC.
example: -1.2345
location_source:
description: Where we got the location (grid/latitude/longitude) from. Unlike a spot where we might have a summit position or WAB square, here the only options are an online QTH lookup, or a location based purely on DXCC, or nothing.
$ref: "#/components/schemas/LocationSourceForAlert"
'422':
description: Validation error e.g. callsign missing or format incorrect
content:
application/json:
schema:
type: string
example: "Failed"
/lookup/sigref:
get:
tags:
- Utilities
summary: Look up SIG ref details
description: Perform a lookup of data about a certain reference, providing the SIG and the ID of the reference. A SIGRef structure will be returned containing the SIG and ID, plus any other information Spothole could find about it.
operationId: sigref
parameters:
- name: sig
in: query
description: Special Interest Group (SIG), e.g. outdoor activity programme such as POTA
required: true
schema:
$ref: "#/components/schemas/SIGName"
- name: id
in: query
description: ID of a reference in that SIG
required: true
type: string
example: GB-0001
responses:
'200':
description: Success
content:
application/json:
schema:
$ref: '#/components/schemas/SIGRef'
'422':
description: Validation error e.g. SIG not supported or reference format incorrect
content:
application/json:
schema:
type: string
example: "Failed"
/spot:
post:
tags:
- spots
- Spots
summary: Add a spot
description: "Supply a new spot object, which will be added to the system. Currently, this will not be reported up the chain to a cluster, POTA, SOTA etc. This will be introduced in a future version. cURL example: `curl --request POST --header \"Content-Type: application/json\" --data '{\"dx_call\":\"M0TRT\",\"time\":1760019539, \"freq\":14200000, \"comment\":\"Test spot please ignore\", \"de_call\":\"M0TRT\"}' https://spothole.app/api/v1/spot`"
description: "Supply a new spot object, which will be added to the system. Currently, this will not be reported up the chain to a cluster, POTA, SOTA etc. This may be introduced in a future version. cURL example: `curl --request POST --header \"Content-Type: application/json\" --data '{\"dx_call\":\"M0TRT\",\"time\":1760019539, \"freq\":14200000, \"comment\":\"Test spot please ignore\", \"de_call\":\"M0TRT\"}' https://spothole.app/api/v1/spot`"
operationId: spot
requestBody:
description: The JSON spot object
@@ -535,6 +550,184 @@ paths:
components:
schemas:
Source:
type: string
enum:
- POTA
- SOTA
- WWFF
- WWBOTA
- GMA
- HEMA
- ParksNPeaks
- ZLOTA
- WOTA
- Cluster
- RBN
- APRS-IS
- UKPacketNet
example: POTA
SIGName:
type: string
enum:
- POTA
- SOTA
- WWFF
- WWBOTA
- GMA
- HEMA
- WCA
- MOTA
- SIOTA
- ARLHS
- ILLW
- ZLOTA
- KRMNPA
- IOTA
- WOTA
- BOTA
- WAB
- WAI
- TOTA
example: POTA
SIGNameIncludingNoSIG:
type: string
enum:
- POTA
- SOTA
- WWFF
- WWBOTA
- GMA
- HEMA
- WCA
- MOTA
- SIOTA
- ARLHS
- ILLW
- ZLOTA
- KRMNPA
- IOTA
- WOTA
- BOTA
- WAB
- WAI
- TOTA
- NO_SIG
example: POTA
Continent:
type: string
enum:
- EU
- NA
- SA
- AS
- AF
- OC
- AN
example: EU
BandName:
type: string
enum:
- 2200m
- 600m
- 160m
- 80m
- 60m
- 40m
- 30m
- 20m
- 17m
- 15m
- 12m
- 11m
- 10m
- 6m
- 5m
- 4m
- 2m
- 1.25m
- 70cm
- 23cm
- 2.4GHz
- 5.8GHz
- 10GHz
- 24GHz
- 47GHz
- 76GHz
example: 40m
Mode:
type: string
enum:
- CW
- PHONE
- SSB
- USB
- LSB
- AM
- FM
- DV
- DMR
- DSTAR
- C4FM
- M17
- DIGI
- DATA
- FT8
- FT4
- RTTY
- SSTV
- JS8
- HELL
- BPSK
- PSK
- BPSK31
- OLIVIA
- MFSK
- MFSK32
- PKT
example: SSB
ModeType:
type: string
enum:
- CW
- PHONE
- DATA
example: CW
ModeSource:
type: string
enum:
- SPOT
- COMMENT
- BANDPLAN
- NONE
example: SPOT
LocationSourceForSpot:
type: string
enum:
- SPOT
- "SIG REF LOOKUP"
- "WAB/WAI GRID"
- "HOME QTH"
- DXCC
- NONE
example: SPOT
LocationSourceForAlert:
type: string
enum:
- "HOME QTH"
- DXCC
- NONE
example: "HOME QTH"
SIGRef:
type: object
properties:
@@ -542,6 +735,9 @@ components:
type: string
description: SIG reference ID.
example: GB-0001
sig:
description: SIG that this reference is in.
$ref: "#/components/schemas/SIGName"
name:
type: string
description: SIG reference name
@@ -550,6 +746,18 @@ components:
type: string
description: SIG reference URL, which the user can look up for more information
example: "https://pota.app/#/park/GB-0001"
grid:
type: string
description: Maidenhead grid locator for the reference, if known.
example: IO91aa
latitude:
type: number
description: Latitude of the reference, in degrees, if known.
example: 51.2345
longitude:
type: number
description: Longitude of the reference, in degrees, if known.
example: -1.2345
Spot:
type: object
@@ -566,26 +774,21 @@ components:
type: string
description: Name of the operator that has been spotted
example: Ian
dx_qth:
type: string
description: QTH of the operator that has been spotted. This could be from any SIG refs or could be from online lookup of their home QTH.
example: Dorset
dx_country:
type: string
description: Country of the DX operator
example: United Kingdom
description: Country of the operator. Note that this is named "country" for commonality with other amateur radio tools, but in reality this is more of a "DXCC Name", as it includes many options which are not countries, just territories that DXCC uniquely identifies.
example: England
dx_flag:
type: string
description: Country flag of the DX operator
description: Country flag of the DX operator. This is limited to the range of emoji flags. For some DXCCs there may not be an official emoji flag, e.g. Northern Ireland, so the appearance may vary depending on your browser and operating system. Some small islands may also have no flag. Many DXCCs may also share a flag, e.g. mainland Spain, Balearic Islands, etc.
example: ""
dx_continent:
type: string
description: Continent of the DX operator
enum:
- EU
- NA
- SA
- AS
- AF
- OC
- AN
example: EU
$ref: "#/components/schemas/Continent"
dx_dxcc_id:
type: integer
description: DXCC ID of the DX operator
@@ -615,18 +818,11 @@ components:
description: Longitude of the DX spot, in degrees. This could be from a geographical reference e.g. POTA, or from a QRZ lookup
example: -1.2345
dx_location_source:
type: string
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
description: Where we got the DX location (grid/latitude/longitude) from. If this was from the spot itself, or from a lookup of the SIG ref (e.g. park) 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.
$ref: "#/components/schemas/LocationSourceForSpot"
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 "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).
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", "SIG REF LOOKUP" or "WAB/WAI GRID", or alternatively if the source is "HOME QTH" and the callsign doesn't have a slash in it (i.e. operator likely at home).
example: true
de_call:
type: string
@@ -634,24 +830,15 @@ components:
example: M0TEST
de_country:
type: string
description: Country of the spotter
example: United Kingdom
description: Country of the operator. Note that this is named "country" for commonality with other amateur radio tools, but in reality this is more of a "DXCC Name", as it includes many options which are not countries, just territories that DXCC uniquely identifies.
example: England
de_flag:
type: string
description: Country flag of the spotter
description: Country flag of the spotter. This is limited to the range of emoji flags. For some DXCCs there may not be an official emoji flag, e.g. Northern Ireland, so the appearance may vary depending on your browser and operating system. Some small islands may also have no flag. Many DXCCs may also share a flag, e.g. mainland Spain, Balearic Islands, etc.
example: ""
de_continent:
type: string
enum:
- EU
- NA
- SA
- AS
- AF
- OC
- AN
description: Continent of the spotter
example: EU
$ref: "#/components/schemas/Continent"
de_dxcc_id:
type: integer
description: DXCC ID of the spotter
@@ -673,79 +860,22 @@ components:
description: Longitude of the DX spotspotter, in degrees. This is not going to be from a xOTA reference so it will likely just be a QRZ or DXCC lookup. If the spotter is also portable, this is probably wrong, but it's good enough for some simple mapping.
example: -1.2345
mode:
type: string
description: Reported mode.
enum:
- CW
- PHONE
- SSB
- USB
- LSB
- AM
- FM
- DV
- DMR
- DSTAR
- C4FM
- M17
- DIGI
- DATA
- FT8
- FT4
- RTTY
- SSTV
- JS8
- HELL
- BPSK
- PSK
- BPSK31
- OLIVIA
- MFSK
- MFSK32
- PKT
$ref: "#/components/schemas/Mode"
example: SSB
mode_type:
type: string
description: Inferred mode "family".
enum:
- CW
- PHONE
- DATA
example: PHONE
$ref: "#/components/schemas/ModeType"
mode_source:
type: string
description: Where we got the mode from. If this was from the spot itself, it's likely quite accurate, but if we had to fall back to the bandplan, it might not be correct.
enum:
- SPOT
- COMMENT
- BANDPLAN
- NONE
$ref: "#/components/schemas/ModeSource"
freq:
type: number
description: Frequency, in Hz
example: 7150500
band:
type: string
description: Band, defined by the frequency.
enum:
- 160m
- 80m
- 60m
- 40m
- 30m
- 20m
- 17m
- 15m
- 12m
- 10m
- 6m
- 4m
- 2m
- 70cm
- 23cm
- 13cm
- Unknown
example: 40m
$ref: "#/components/schemas/BandName"
time:
type: number
description: Time of the spot, UTC seconds since UNIX epoch
@@ -767,27 +897,8 @@ components:
description: Comment left by the spotter, if any
example: "59 in NY 73"
sig:
type: string
description: Special Interest Group (SIG), e.g. outdoor activity programme such as POTA
enum:
- POTA
- SOTA
- WWFF
- WWBOTA
- GMA
- HEMA
- WCA
- MOTA
- SIOTA
- ARLHS
- ILLW
- ZLOTA
- IOTA
- WOTA
- BOTA
- WAB
- WAI
example: POTA
$ref: "#/components/schemas/SIGName"
sig_refs:
type: array
items:
@@ -804,7 +915,7 @@ components:
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"
example: "#ff0000"
band_contrast_color:
type: string
descripton: Black or white, whichever best contrasts with "band_color".
@@ -814,23 +925,8 @@ components:
description: QRT state. Some APIs return spots marked as QRT. Otherwise we can check the comments.
example: false
source:
type: string
description: Where we got the spot from.
enum:
- POTA
- SOTA
- WWFF
- WWBOTA
- GMA
- HEMA
- ParksNPeaks
- ZLOTA
- WOTA
- Cluster
- RBN
- APRS-IS
- UKPacketNet
example: POTA
$ref: "#/components/schemas/Source"
source_id:
type: string
description: The ID the source gave it, if any.
@@ -858,24 +954,15 @@ components:
example: Ian
dx_country:
type: string
description: Country of the DX operator. This, and the subsequent fields, assume that all activators will be in the same country!
example: United Kingdom
description: Country of the DX operator. Country of the operator. Note that this is named "country" for commonality with other amateur radio tools, but in reality this is more of a "DXCC Name", as it includes many options which are not countries, just territories that DXCC uniquely identifies. This, and the subsequent fields, assume that all activators will be in the same country!
example: England
dx_flag:
type: string
description: Country flag of the DX operator
description: Country flag of the DX operator. This is limited to the range of emoji flags. For some DXCCs there may not be an official emoji flag, e.g. Northern Ireland, so the appearance may vary depending on your browser and operating system. Some small islands may also have no flag. Many DXCCs may also share a flag, e.g. mainland Spain, Balearic Islands, etc.
example: ""
dx_continent:
type: string
description: Continent of the DX operator
enum:
- EU
- NA
- SA
- AS
- AF
- OC
- AN
example: EU
$ref: "#/components/schemas/Continent"
dx_dxcc_id:
type: integer
description: DXCC ID of the DX operator
@@ -921,27 +1008,8 @@ components:
description: Comment made by the activator, if any
example: "2025 DXpedition to null island"
sig:
type: string
description: Special Interest Group (SIG), e.g. outdoor activity programme such as POTA
enum:
- POTA
- SOTA
- WWFF
- WWBOTA
- GMA
- HEMA
- WCA
- MOTA
- SIOTA
- ARLHS
- ILLW
- ZLOTA
- IOTA
- WOTA
- BOTA
- WAB
- WAI
example: POTA
$ref: "#/components/schemas/SIGName"
sig_refs:
type: array
items:
@@ -958,22 +1026,7 @@ components:
source:
type: string
description: Where we got the alert from.
enum:
- POTA
- SOTA
- WWFF
- WWBOTA
- GMA
- HEMA
- ParksNPeaks
- ZLOTA
- WOTA
- BOTA
- Cluster
- RBN
- APRS-IS
- UKPacketNet
example: POTA
$ref: "#/components/schemas/Source"
source_id:
type: string
description: The ID the source gave it, if any.
@@ -983,9 +1036,8 @@ components:
type: object
properties:
name:
type: string
description: The name of the provider.
example: POTA
$ref: "#/components/schemas/Source"
enabled:
type: boolean
description: Whether the provider is enabled or not.
@@ -1007,9 +1059,8 @@ components:
type: object
properties:
name:
type: string
description: The name of the provider.
example: POTA
$ref: "#/components/schemas/Source"
enabled:
type: boolean
description: Whether the provider is enabled or not.
@@ -1027,9 +1078,8 @@ components:
type: object
properties:
name:
type: string
description: The name of the band
example: 40m
$ref: "#/components/schemas/BandName"
start_freq:
type: int
description: The start frequency of this band, in Hz.
@@ -1051,9 +1101,8 @@ components:
type: object
properties:
name:
type: string
description: The abbreviated name of the SIG
example: POTA
$ref: "#/components/schemas/SIGName"
description:
type: string
description: The full name of the SIG

91
webassets/css/style.css
View File

@@ -4,10 +4,42 @@
font-weight: bold;
}
/* In embedded mode, hide header/footer/settings. "#header div" is kind of janky but for some reason if we hide the
whole of #header, the map vertical sizing breaks. */
[embedded-mode=true] #header div, [embedded-mode=true] #footer,
[embedded-mode=true] #settingsButtonRow, [embedded-mode=true] #settingsButtonRowMap {
display: none;
}
/* Display floating footer in embedded mode only */
#embeddedModeFooter {
display: none;
position: fixed;
bottom: 0;
right: 0;
background: var(--bs-body-bg);
border-radius: 1em 0 0 0;
font-size: 0.9em;
border-top: 1px solid grey;
border-left: 1px solid grey;
}
[embedded-mode=true] #embeddedModeFooter {
display: block;
}
#embeddedModeFooter img.logo {
position: relative;
top: -2px;
}
/* Invert logo colours in dark mode */
[data-bs-theme=dark] .logo {
filter: invert(100%) hue-rotate(180deg) brightness(80%);
}
/* INTRO/WARNING BOXES */
#intro-box {
.permanently-dismissible-box {
display: none;
}
@@ -26,8 +58,13 @@ div.container {
min-height:100svh;
}
[embedded-mode=true] div.container {
width: 100% !important;
max-width: 100% !important;
}
/* ABOUT PAGE*/
/* ABOUT PAGE */
#info-container{
width: 100%;
@@ -43,6 +80,12 @@ div.container {
/* SPOTS/ALERTS PAGES, SETTINGS/STATUS AREAS */
input#filter-dx-call {
max-width: 12em;
margin-right: 1rem;
padding-left: 2em;
}
div.appearing-panel {
display: none;
}
@@ -65,11 +108,16 @@ td.nowrap, span.nowrap {
span.flag-wrapper {
display: inline-block;
width: 1.7em;
width: 1.8em;
text-align: center;
cursor: default;
}
img.flag {
position: relative;
top: -2px;
}
span.band-bullet {
display: inline-block;
cursor: default;
@@ -126,6 +174,18 @@ tr.table-faded td span {
text-decoration: line-through !important;
}
/* Fudge apply our own "dark primary" and "dark danger" backgrounds as Bootstrap doesn't do this itself */
[data-bs-theme=dark] tr.table-primary {
--bs-table-bg: #053680;
--bs-table-border-color: #021b42;
--bs-table-color: white;
}
[data-bs-theme=dark] tr.table-danger {
--bs-table-bg: #74272e;
--bs-table-border-color: #530208;
--bs-table-color: white;
}
/* MAP */
div#map {
@@ -141,6 +201,12 @@ div#map {
font-family: var(--bs-body-font-family) !important;
}
[data-bs-theme=dark] .leaflet-layer,
[data-bs-theme=dark] .leaflet-control-attribution {
filter: invert(100%) hue-rotate(180deg) brightness(95%) contrast(90%);
}
/* BANDS PANEL */
@@ -216,6 +282,10 @@ div.band-spot {
cursor: default;
}
[data-bs-theme=dark] div.band-spot {
background-color: black;
}
div.band-spot:hover {
z-index: 999;
}
@@ -240,13 +310,28 @@ div.band-spot:hover span.band-spot-info {
/* GENERAL MOBILE SUPPORT */
@media (max-width: 991.99px) {
/* General "hide this on mobile" class */
.hideonmobile {
display: none !important;
}
/* Make map stretch to horizontal screen edges */
div#map, div#table-container, div#bands-container {
margin-left: -1em;
margin-right: -1em;
}
/* Avoid map page filters panel being larger than the map itself */
#settingsButtonRowMap .appearing-panel {
max-height: 30em;
}
#settingsButtonRowMap .appearing-panel .card-body {
max-height: 26em;
overflow: scroll;
}
/* Filter/search DX Call field should be smaller on mobile */
input#filter-dx-call {
max-width: 9em;
margin-right: 0;
}
}
@media (min-width: 992px) {

BIN
webassets/img/flags/1.png Normal file
View File

Binary file not shown.
Side by Side

After

Width:  |  Height:  |  Size: 3.9 KiB

BIN
webassets/img/flags/10.png Normal file
View File

Binary file not shown.
Side by Side

After

Width:  |  Height:  |  Size: 7.0 KiB

BIN
webassets/img/flags/100.png Normal file
View File

Binary file not shown.
Side by Side

After

Width:  |  Height:  |  Size: 6.5 KiB

BIN
webassets/img/flags/101.png Normal file
View File

Binary file not shown.
Side by Side

After

Width:  |  Height:  |  Size: 348 B

BIN
webassets/img/flags/102.png Normal file
View File

Binary file not shown.
Side by Side

After

Width:  |  Height:  |  Size: 348 B

BIN
webassets/img/flags/103.png Normal file
View File

Binary file not shown.
Side by Side

After

Width:  |  Height:  |  Size: 7.2 KiB

BIN
webassets/img/flags/104.png Normal file
View File

Binary file not shown.
Side by Side

After

Width:  |  Height:  |  Size: 4.8 KiB

BIN
webassets/img/flags/105.png Normal file
View File

Binary file not shown.
Side by Side

After

Width:  |  Height:  |  Size: 14 KiB

BIN
webassets/img/flags/106.png Normal file
View File

Binary file not shown.
Side by Side

After

Width:  |  Height:  |  Size: 5.9 KiB

BIN
webassets/img/flags/107.png Normal file
View File

Binary file not shown.
Side by Side

After

Width:  |  Height:  |  Size: 4.1 KiB

BIN
webassets/img/flags/108.png Normal file
View File

Binary file not shown.
Side by Side

After

Width:  |  Height:  |  Size: 8.7 KiB

BIN
webassets/img/flags/109.png Normal file
View File

Binary file not shown.
Side by Side

After

Width:  |  Height:  |  Size: 4.9 KiB

BIN
webassets/img/flags/11.png Normal file
View File

Binary file not shown.
Side by Side

After

Width:  |  Height:  |  Size: 6.4 KiB

BIN
webassets/img/flags/110.png Normal file
View File

Binary file not shown.
Side by Side

After

Width:  |  Height:  |  Size: 14 KiB

BIN
webassets/img/flags/111.png Normal file
View File

Binary file not shown.
Side by Side

After

Width:  |  Height:  |  Size: 9.1 KiB

BIN
webassets/img/flags/112.png Normal file
View File

Binary file not shown.
Side by Side

After

Width:  |  Height:  |  Size: 4.8 KiB

BIN
webassets/img/flags/113.png Normal file
View File

Binary file not shown.
Side by Side

After

Width:  |  Height:  |  Size: 348 B

BIN
webassets/img/flags/114.png Normal file
View File

Binary file not shown.
Side by Side

After

Width:  |  Height:  |  Size: 7.3 KiB

BIN
webassets/img/flags/115.png Normal file
View File

Binary file not shown.
Side by Side

After

Width:  |  Height:  |  Size: 348 B

BIN
webassets/img/flags/116.png Normal file
View File

Binary file not shown.
Side by Side

After

Width:  |  Height:  |  Size: 4.9 KiB

BIN
webassets/img/flags/117.png Normal file
View File

Binary file not shown.
Side by Side

After

Width:  |  Height:  |  Size: 9.5 KiB

BIN
webassets/img/flags/118.png Normal file
View File

Binary file not shown.
Side by Side

After

Width:  |  Height:  |  Size: 6.5 KiB

BIN
webassets/img/flags/119.png Normal file
View File

Binary file not shown.
Side by Side

After

Width:  |  Height:  |  Size: 348 B

BIN
webassets/img/flags/12.png Normal file
View File

Binary file not shown.
Side by Side

After

Width:  |  Height:  |  Size: 9.8 KiB

BIN
webassets/img/flags/120.png Normal file
View File

Binary file not shown.
Side by Side

After

Width:  |  Height:  |  Size: 8.2 KiB

BIN
webassets/img/flags/122.png Normal file
View File

Binary file not shown.
Side by Side

After

Width:  |  Height:  |  Size: 8.9 KiB

BIN
webassets/img/flags/123.png Normal file
View File

Binary file not shown.
Side by Side

After

Width:  |  Height:  |  Size: 14 KiB

BIN
webassets/img/flags/124.png Normal file
View File

Binary file not shown.
Side by Side

After

Width:  |  Height:  |  Size: 7.0 KiB

BIN
webassets/img/flags/125.png Normal file
View File

Binary file not shown.
Side by Side

After

Width:  |  Height:  |  Size: 4.8 KiB

BIN
webassets/img/flags/126.png Normal file
View File

Binary file not shown.
Side by Side

After

Width:  |  Height:  |  Size: 4.4 KiB

BIN
webassets/img/flags/127.png Normal file
View File

Binary file not shown.
Side by Side

After

Width:  |  Height:  |  Size: 348 B

BIN
webassets/img/flags/128.png Normal file
View File

Binary file not shown.
Side by Side

After

Width:  |  Height:  |  Size: 348 B

BIN
webassets/img/flags/129.png Normal file
View File

Binary file not shown.
Side by Side

After

Width:  |  Height:  |  Size: 7.6 KiB

BIN
webassets/img/flags/13.png Normal file
View File

Binary file not shown.
Side by Side

After

Width:  |  Height:  |  Size: 6.4 KiB

BIN
webassets/img/flags/130.png Normal file
View File

Binary file not shown.
Side by Side

After

Width:  |  Height:  |  Size: 9.8 KiB

BIN
webassets/img/flags/131.png Normal file
View File

Binary file not shown.
Side by Side

After

Width:  |  Height:  |  Size: 7.0 KiB

BIN
webassets/img/flags/132.png Normal file
View File

Binary file not shown.
Side by Side

After

Width:  |  Height:  |  Size: 6.1 KiB

BIN
webassets/img/flags/133.png Normal file
View File

Binary file not shown.
Side by Side

After

Width:  |  Height:  |  Size: 9.3 KiB

BIN
webassets/img/flags/134.png Normal file
View File

Binary file not shown.
Side by Side

After

Width:  |  Height:  |  Size: 348 B

BIN
webassets/img/flags/135.png Normal file
View File

Binary file not shown.
Side by Side

After

Width:  |  Height:  |  Size: 8.4 KiB

BIN
webassets/img/flags/136.png Normal file
View File

Binary file not shown.
Side by Side

After

Width:  |  Height:  |  Size: 3.3 KiB

BIN
webassets/img/flags/137.png Normal file
View File

Binary file not shown.
Side by Side

After

Width:  |  Height:  |  Size: 8.4 KiB

BIN
webassets/img/flags/138.png Normal file
View File

Binary file not shown.
Side by Side

After

Width:  |  Height:  |  Size: 14 KiB

BIN
webassets/img/flags/139.png Normal file
View File

Binary file not shown.
Side by Side

After

Width:  |  Height:  |  Size: 348 B

BIN
webassets/img/flags/14.png Normal file
View File

Binary file not shown.
Side by Side

After

Width:  |  Height:  |  Size: 4.9 KiB

BIN
webassets/img/flags/140.png Normal file
View File

Binary file not shown.
Side by Side

After

Width:  |  Height:  |  Size: 7.4 KiB

BIN
webassets/img/flags/141.png Normal file
View File

Binary file not shown.
Side by Side

After

Width:  |  Height:  |  Size: 12 KiB

BIN
webassets/img/flags/142.png Normal file
View File

Binary file not shown.
Side by Side

After

Width:  |  Height:  |  Size: 6.4 KiB

BIN
webassets/img/flags/143.png Normal file
View File

Binary file not shown.
Side by Side

After

Width:  |  Height:  |  Size: 5.5 KiB

BIN
webassets/img/flags/144.png Normal file
View File

Binary file not shown.
Side by Side

After

Width:  |  Height:  |  Size: 10 KiB

BIN
webassets/img/flags/145.png Normal file
View File

Binary file not shown.
Side by Side

After

Width:  |  Height:  |  Size: 4.9 KiB

BIN
webassets/img/flags/146.png Normal file
View File

Binary file not shown.
Side by Side

After

Width:  |  Height:  |  Size: 5.0 KiB

BIN
webassets/img/flags/147.png Normal file
View File

Binary file not shown.
Side by Side

After

Width:  |  Height:  |  Size: 9.1 KiB

BIN
webassets/img/flags/148.png Normal file
View File

Binary file not shown.
Side by Side

After

Width:  |  Height:  |  Size: 6.1 KiB

BIN
webassets/img/flags/149.png Normal file
View File

Binary file not shown.
Side by Side

After

Width:  |  Height:  |  Size: 6.7 KiB

BIN
webassets/img/flags/15.png Normal file
View File

Binary file not shown.
Side by Side

After

Width:  |  Height:  |  Size: 4.4 KiB

BIN
webassets/img/flags/150.png Normal file
View File

Binary file not shown.
Side by Side

After

Width:  |  Height:  |  Size: 9.1 KiB

Some files were not shown because too many files have changed in this diff Show More