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# OpsLog
|
||||
|
||||
Un logiciel de log radioamateur moderne et rapide pour Windows — saisie façon
|
||||
Log4OM, CAT en temps réel pour **OmniRig**, **FlexRadio/SmartSDR** natif,
|
||||
**Icom CI-V** natif (USB **et** à distance par internet, en remplacement de
|
||||
RS-BA1) et **TCI** (SunSDR / Expert Electronics), cluster DX avec alertes de
|
||||
spots, suivi des diplômes, cartes, log de concours, gestion des QSL et un
|
||||
concepteur de cartes QSL. Construit avec **Wails v2** (backend Go + frontend
|
||||
React/TypeScript), **100 % Go** (sans CGO) : SQLite pour la configuration,
|
||||
**MySQL partagé** optionnel pour le journal afin que plusieurs opérateurs
|
||||
partagent un même log. Entièrement thémable et bilingue (anglais / français).
|
||||
|
||||
Développé par **F4BPO**.
|
||||
|
||||
---
|
||||
|
||||
## Compilation / développement
|
||||
|
||||
- **Dev :** `wails dev` (rechargement à chaud Vite ; méthodes Go accessibles sur http://localhost:34115).
|
||||
- **Build :** `wails build` (utiliser la version wails v2.11 du projet — `~/go/bin/wails.exe`).
|
||||
- **Régénérer les bindings Go↔TS** après modification des méthodes `App`
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||||
exportées : `wails generate module`.
|
||||
- **Release :** `.vscode/release.ps1` (Ctrl+Maj+P → *Tasks: Run Task* →
|
||||
*Release OpsLog*) — incrémente la version, pousse le source sur Gitea, compile
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||||
l'exe et le publie sur les releases Gitea + GitHub.
|
||||
|
||||
---
|
||||
|
||||
## Journalisation
|
||||
|
||||
- **Bandeau de saisie façon Log4OM :** indicatif, RST émis/reçu, nom/QTH/locator,
|
||||
bande/mode, fréquence TX/RX (split), heure de début/fin, commentaire/note. Le
|
||||
**drapeau** de l'entité contactée est affiché en grand à côté des champs RST.
|
||||
- **Recherche d'indicatif** (QRZ.com / HamQTH) avec photo, pré-remplissage du
|
||||
nom/QTH/locator et onglet QRZ.com.
|
||||
- **Résolution DXCC hors ligne** depuis `cty.dat` (pays, zones CQ/ITU,
|
||||
continent), avec gestion des `/MM` `/AM` `/B` (balise) et des changements de
|
||||
district (`/8`, `/W6`), plus les dérogations DXpédition de ClubLog par dates.
|
||||
- **QSO récents**, matrice **déjà contactés** (par créneau bande/mode),
|
||||
re-résolution en masse depuis cty/QRZ/ClubLog, envoi en masse vers les services
|
||||
QSL.
|
||||
- **Constructeur de filtres QSO avancé** (champ / opérateur / valeur, ET / OU,
|
||||
préréglages enregistrés) avec **export ADIF** des lignes filtrées ou
|
||||
sélectionnées.
|
||||
- **Recherche de doublons** (Outils) — regroupe les QSO par même indicatif +
|
||||
bande + mode (optionnellement même jour / minute) et permet de choisir lesquels
|
||||
supprimer.
|
||||
- **Conforme ADIF 3.1.7** en import/export : dictionnaire complet des champs,
|
||||
30 colonnes promues, éditeur générique de « champs supplémentaires » et modes
|
||||
d'export standard/complet.
|
||||
- **Profils :** chaque réglage est par profil ; chaque profil peut pointer son
|
||||
journal vers le fichier SQLite local ou une base **MySQL partagée**
|
||||
(multi-opérateur).
|
||||
|
||||
## Cartes & antenne
|
||||
|
||||
- **Vue principale = deux volets configurables** (par profil, Réglages → Général
|
||||
→ *Vue principale*) : carte grand-cercle, carte locator (rue), la grille du
|
||||
cluster, la grille des déjà-contactés, les QSO récents, les **commandes
|
||||
FlexRadio**, la **console Icom** ou le panneau **Net control**.
|
||||
- **Carte grand-cercle** avec distance & azimut trajet court/long, fonds de carte
|
||||
sélectionnables (Light / Voyager / Street / Satellite, tous sans clé et
|
||||
légendés) et le(s) **lobe(s) du faisceau d'antenne** tracés depuis l'azimut du
|
||||
rotor.
|
||||
- **Compas de rotor** (azimutal équidistant, clic pour tourner) piloté par
|
||||
PstRotator.
|
||||
- **Support Ultrabeam** (Normal / inversé 180° / bidirectionnel) : la direction
|
||||
rayonnée est en vert et le **boom mécanique** en gris, à la fois sur le compas
|
||||
et sur la carte, pour toujours savoir où pointe l'antenne.
|
||||
|
||||
## Cluster DX
|
||||
|
||||
- Plusieurs serveurs de cluster avec reconnexion auto, un maître pour les
|
||||
commandes.
|
||||
- **Barre latérale de filtres** (recherche d'indicatif, masquer-déjà-contactés,
|
||||
grouper les doublons, bande / mode / statut / source) partagée entre l'onglet
|
||||
Cluster et le volet cluster de la vue principale, avec bascule affichage/masquage.
|
||||
- **Statut** par spot (nouveau / nouvelle bande / nouveau créneau / contacté),
|
||||
clic pour accorder la radio, et une **bandmap** multi-bandes (bandes façon
|
||||
panadapter).
|
||||
- Les spots **POTA** sont étiquetés avec leur référence de parc (via
|
||||
`api.pota.app`).
|
||||
- **Alertes de spots** (façon Log4OM) : règles sur indicatif / pays / bande /
|
||||
mode / spotter, avec notification sonore, visuelle et e-mail (Outils →
|
||||
*Gestion des alertes*).
|
||||
|
||||
## Contrôle CAT
|
||||
|
||||
Quatre backends natifs (Réglages → CAT), chacun avec reconnexion auto et une
|
||||
connexion rapide non bloquante — une radio éteinte ne fige jamais l'application :
|
||||
|
||||
- **OmniRig** (Rig 1/2, changement à chaud) — fonctionne avec toute radio
|
||||
supportée par OmniRig.
|
||||
- **FlexRadio (SmartSDR)** via l'API TCP de la radio — fréquence / mode / split
|
||||
de la slice en temps réel, découverte UDP, et **spots panadapter** (les spots
|
||||
du cluster poussés sur l'écran Flex, clic → remplir l'indicatif).
|
||||
- **Icom CI-V** — natif, via le port **USB** de la radio *ou* par internet via le
|
||||
**serveur LAN intégré** de la radio (voir *Icom à distance* ci-dessous). Ni
|
||||
RS-BA1 ni Remote Utility nécessaires.
|
||||
- **TCI** (WebSocket) — SunSDR / ExpertSDR2 et tout serveur compatible TCI :
|
||||
fréquence / mode / PTT / split, plus spots panorama optionnels.
|
||||
|
||||
Le mode est lu depuis la radio ; le sous-mode numérique (FT4 vs FT8) est déduit
|
||||
de la fréquence. Les **antennes RX/TX Flex par bande** sont configurables et
|
||||
appliquées automatiquement au changement de bande.
|
||||
|
||||
### Onglet de commande FlexRadio (façon SmartSDR)
|
||||
|
||||
Affiché uniquement quand le backend CAT est une FlexRadio :
|
||||
|
||||
- **Émission :** puissance RF, puissance d'accord, TUNE, MOX, processeur de
|
||||
parole (NOR/DX/DX+), VOX (+ niveau + délai), moniteur (+ niveau), gain micro.
|
||||
- **Réception (slice active) :** mode/seuil AGC, niveau audio, NB / NR / ANF.
|
||||
- **Coupleur d'antenne (ATU) :** accord / bypass / mémoires.
|
||||
- **Amplificateur :** PowerGenius XL operate/standby + défaut.
|
||||
- **Mesures en direct** via le flux UDP VITA-49 : S-mètre (unités S), puissance
|
||||
directe (W), ROS, ALC, température PA, tension, plus les mesures de l'ampli.
|
||||
|
||||
### Onglet de commande Icom
|
||||
|
||||
Affiché quand le backend CAT est Icom (USB ou réseau). Une console complète façon
|
||||
RS-BA1 :
|
||||
|
||||
- **Double afficheur VFO** (MAIN / SUB) avec la grande fréquence tabulaire, le
|
||||
badge de mode, la bande et l'offset RIT/ΔTX, et une **rangée de boutons de
|
||||
mode** (SSB / CW / RTTY / PSK / AM / FM).
|
||||
- **Scope de spectre + waterfall** (panadapter) : ON/OFF, CTR/FIX, double-clic
|
||||
pour accorder, et boutons **◀ ⊙ ▶** pour centrer le scope sur la fréquence
|
||||
actuelle (±50 kHz) et le décaler à gauche/droite.
|
||||
- **Mesures en direct** toujours visibles : S-mètre (clic → remplir le RST),
|
||||
puissance en watts, ROS.
|
||||
- **DSP réception :** gain AF / RF, squelch, AGC, préampli, atténuateur, filtre
|
||||
(FIL1/2/3), NB, NR, ANF et — **en CW seulement** — l'**APF** (filtre de pic
|
||||
audio).
|
||||
- **Passe-bande / notch :** Twin PBT (intérieur / extérieur), notch manuel +
|
||||
position.
|
||||
- **Émission :** puissance RF, MOX, TUNE, **split avec offset automatique**
|
||||
(+5 kHz en SSB, +1 kHz en CW), et moniteur. **En phonie seulement** : gain
|
||||
micro, processeur de parole, VOX (+ gain + anti-VOX). Les commandes qui ne
|
||||
s'appliquent pas au mode courant sont masquées automatiquement.
|
||||
- **Bandes & antenne :** boutons de bande en un clic et sélection ANT1/ANT2.
|
||||
- **Clarificateurs :** RIT et ΔTX avec accord molette / ± (Ctrl+←/→ décale le
|
||||
RIT).
|
||||
- Boutons **Marche / Arrêt** (manuels par choix — l'application ne réveille
|
||||
jamais la radio à la connexion).
|
||||
- La **manipulation CW** peut passer par le keyer intégré de la radio (voir
|
||||
*Keyers* ci-dessous).
|
||||
|
||||
### Icom à distance (par internet, sans RS-BA1)
|
||||
|
||||
OpsLog parle directement le protocole réseau intégré de l'IC-7610 — il
|
||||
**remplace à la fois l'Icom Remote Utility et RS-BA1**. Saisissez l'IP de la
|
||||
radio, le nom/mot de passe Network User1 et l'adresse CI-V, et toute la console
|
||||
Icom fonctionne sur le LAN/internet : login + token (renouvelé automatiquement),
|
||||
tunnel CI-V, retransmission côté réception pour une liaison très stable même
|
||||
avec le panadapter en flux, et Marche/Arrêt manuel. (L'audio est hors périmètre
|
||||
— utilisez la radio en USB + une liaison voix comme Mumble.)
|
||||
|
||||
## Keyers & audio
|
||||
|
||||
- **Keyer CW** avec macros et macros sur touches F. Le moteur du keyer est
|
||||
sélectionnable : **WinKeyer** (K1EL WK1/2/3 sur port COM), **Icom** (le keyer
|
||||
intégré de la radio via CI-V — sans matériel supplémentaire, fonctionne aussi à
|
||||
distance) ou **TCI**.
|
||||
- **Keyer vocal numérique** (DVK) : enregistrer les messages vocaux F1–F6 et les
|
||||
émettre.
|
||||
- **Enregistrement audio des QSO :** capture continue en tampon glissant ; au
|
||||
*Log QSO* le contact est sauvegardé dans un WAV par QSO
|
||||
(`INDICATIF_AAAAMMJJ_HHMMSS.wav`) ; mixe RX + micro.
|
||||
|
||||
## Amplis & commutateurs
|
||||
|
||||
- Amplificateur **PowerGenius XL** (4O3A) — TCP direct : operate/standby,
|
||||
sélecteur de mode ventilateur et affichage des défauts.
|
||||
- Commutateur d'antenne **Antenna Genius** (4O3A) via TCP/GSCP — un widget de
|
||||
commutation A/B ancré.
|
||||
|
||||
## QSL & diplômes
|
||||
|
||||
- **Moteur de diplômes :** définitions intégrées + personnalisées (partagées
|
||||
**globalement** entre profils) — DXCC, WAS / WAZ / WAC, WPX,
|
||||
IOTA / POTA / SOTA / WWFF, **DDFM**, contacté/confirmé/validé par bande & mode,
|
||||
règles OU et affectation manuelle de références, détection de référence en
|
||||
direct à la saisie de l'indicatif, **import de listes de références** pour les
|
||||
totaux/noms, et un **Rescan** qui relit le journal (récupère les nouvelles
|
||||
confirmations LoTW/QRZ).
|
||||
- **Services QSL :** ClubLog (upload ADIF par lots), LoTW, QRZ.com, eQSL —
|
||||
upload et **téléchargement des confirmations** (qui rafraîchit automatiquement
|
||||
les stats de diplômes).
|
||||
- **Concepteur de cartes QSL** (voir ci-dessous).
|
||||
- **eQSL par e-mail :** clic droit sur un QSO → *Envoyer l'eQSL par e-mail* via
|
||||
le compte SMTP configuré. (Outlook/Hotmail désactivent le SMTP basic-auth —
|
||||
utilisez Gmail avec un mot de passe d'application, ou un mot de passe
|
||||
d'application Microsoft.)
|
||||
|
||||
## Log de concours
|
||||
|
||||
- **Onglet Contest :** choisissez un concours (liste ADIF `CONTEST_ID` intégrée)
|
||||
et un échange (numéro de série courant ou échange fixe). OpsLog remplit
|
||||
automatiquement `CONTEST_ID` et les numéros émis/reçus (`STX` / `SRX`), impose
|
||||
un début/fin de fenêtre, signale les doublons et tient un tableau de score en
|
||||
direct.
|
||||
|
||||
## Statut opérateur en direct (événements spéciaux)
|
||||
|
||||
Pour un indicatif d'événement spécial multi-op sur un journal MySQL partagé (ex.
|
||||
**TM74TFR**) : Réglages → Général → *Publier le statut opérateur en direct*.
|
||||
Chaque instance OpsLog envoie un battement de cœur de son activité (indicatif de
|
||||
l'opérateur, bande, fréquence, mode) dans une table `live_status` toutes les
|
||||
~15 s. Un petit rendu PHP
|
||||
([`docs/livestatus/tm74-status.php`](docs/livestatus/tm74-status.php)) sur votre
|
||||
propre serveur web lit cette table et produit une page/image en direct que vous
|
||||
pouvez intégrer sur la bio **QRZ.com** de la station
|
||||
(`<img src="…/tm74-status.php?img=1">`). OpsLog écrit seulement dans la base —
|
||||
ce n'est pas un serveur web.
|
||||
|
||||
## Net control
|
||||
|
||||
- **Log de net dirigé** (Outils → Net) : un roster global (`nets.json`) plus une
|
||||
session active en mémoire — pointez les stations présentes, puis loguez tout le
|
||||
net d'un coup en utilisant la fréquence CAT.
|
||||
|
||||
## Apparence & langue
|
||||
|
||||
- **Thèmes :** quatre thèmes complets (Clair chaud, Sombre chaud, Graphite
|
||||
sombre, Contraste élevé) plus **Auto** (suit la préférence clair/sombre du
|
||||
système), sélectionnables dans Réglages → Général. Chaque panneau et chaque
|
||||
table AG-Grid suit le thème.
|
||||
- **Bilingue :** interface complète **anglais / français**, avec un choix de
|
||||
drapeau au premier lancement et un sélecteur dans Réglages → Général.
|
||||
|
||||
## Sécurité
|
||||
|
||||
- **Coffre à secrets :** chiffrement optionnel par phrase de passe des mots de
|
||||
passe stockés (AES-GCM + PBKDF2). Les valeurs chiffrées sont portables ; une
|
||||
seule invite de déverrouillage au lancement les déchiffre pour la session.
|
||||
|
||||
## Intégrations (sortantes)
|
||||
|
||||
- **Émetteurs UDP :** pousser la fréquence actuelle vers **PstRotator**, les
|
||||
infos radio au format **N1MM `RadioInfo`**, ou un **enregistrement ADIF à
|
||||
chaque QSO logué** — pour que les outils externes (contrôle de rotor,
|
||||
applications numériques, autres logiciels de log) restent synchronisés.
|
||||
|
||||
## Divers
|
||||
|
||||
- **Démarrage automatique :** lancer des programmes externes (WSJT-X, JTAlert,
|
||||
contrôle de rotor…) au démarrage d'OpsLog, en sautant ceux déjà lancés.
|
||||
- **Sauvegarde :** sauvegarde optionnelle base + ADIF à la fermeture.
|
||||
- **Vérification de mise à jour** au démarrage avec un toast (désactivable).
|
||||
- **Télémétrie d'usage anonyme** (un battement de cœur quotidien : ID
|
||||
d'installation aléatoire + version + OS — aucune donnée d'indicatif ou de QSO ;
|
||||
désactivable dans les Préférences).
|
||||
|
||||
---
|
||||
|
||||
## Concepteur de cartes QSL
|
||||
|
||||
Outils → *Concepteur de cartes QSL…* transforme quelques photos en une carte
|
||||
eQSL soignée :
|
||||
|
||||
1. Choisissez 1 à 6 photos (jpeg/png). OpsLog les analyse hors ligne (grille de
|
||||
détail/luminance) et propose **3 designs** — indicatif dans la zone la plus
|
||||
calme de la meilleure photo, nom de l'opérateur, zones CQ/ITU + ligne locator,
|
||||
drapeau du pays, les autres photos en inserts encadrés, et un encart de
|
||||
confirmation par QSO.
|
||||
2. Choisissez une proposition et affinez-la : cliquez un élément pour le
|
||||
sélectionner, glissez pour déplacer, changez la police / le préréglage de
|
||||
style (gel or, gel argent, contour blanc classique, script, plat) et les
|
||||
réglages par préréglage dans le panneau de droite.
|
||||
3. Enregistrez le modèle (les photos sont copiées dans
|
||||
`data/qsl/templates/<id>/`, les originaux peuvent donc être déplacés). Un
|
||||
modèle peut être le défaut par profil.
|
||||
|
||||
Envoi : clic droit sur un QSO → *Envoyer l'eQSL par e-mail*. La carte est rendue
|
||||
avec les données de ce QSO, matricée en JPEG ≤ 800 Ko, archivée dans
|
||||
`data/qsl/outbox/` et envoyée via le compte SMTP configuré à l'adresse trouvée
|
||||
par la recherche QRZ/HamQTH. En cas de succès le QSO est marqué `EQSL_SENT=Y`
|
||||
(ADIF). Les modèles de sujet/corps de l'e-mail sont dans le concepteur (variables
|
||||
`{CALL} {DATE} {BAND} {MODE} {MYCALL}`).
|
||||
|
||||
Polices : Archivo Black, Lilita One, Baloo 2, Oswald, Great Vibes, Allura
|
||||
(toutes OFL, embarquées — licences dans `internal/qslcard/assets/fonts/`) ;
|
||||
Cooper Black est proposée si MS Office l'a installée. Drapeaux : flag-icons
|
||||
(MIT), embarqués pour les entités DXCC couramment contactées.
|
||||
|
||||
---
|
||||
|
||||
## Données & stockage
|
||||
|
||||
- La **config** (réglages, profils, radios/antennes, nœuds de cluster, cache de
|
||||
recherche, listes de diplômes, modèles QSL) réside toujours dans le fichier
|
||||
SQLite local sous `data/` — instantané même quand le journal est sur un MySQL
|
||||
lointain.
|
||||
- Le **journal** (QSO) réside là où pointe le profil actif : le fichier SQLite
|
||||
local ou une base **MySQL** partagée par profil.
|
||||
|
||||
---
|
||||
|
||||
*An English version of this document is available in [README.md](README.md).*
|
||||
@@ -1,10 +1,13 @@
|
||||
# OpsLog
|
||||
|
||||
A modern, fast ham-radio logger for Windows — Log4OM-style entry, real-time CAT
|
||||
(OmniRig **and** native FlexRadio/SmartSDR), DX cluster, awards tracking, maps,
|
||||
QSL management and a QSL-card designer. Built with **Wails v2** (Go backend +
|
||||
for **OmniRig**, native **FlexRadio/SmartSDR**, native **Icom CI-V** (USB **and**
|
||||
remote-over-internet, replacing RS-BA1) and **TCI** (SunSDR / Expert Electronics),
|
||||
DX cluster with spot alerts, awards tracking, maps, contest logging, QSL
|
||||
management and a QSL-card designer. Built with **Wails v2** (Go backend +
|
||||
React/TypeScript frontend), **pure Go** (no CGO): SQLite for configuration,
|
||||
optional **shared MySQL** for the logbook so several operators can run one log.
|
||||
Fully themeable and bilingual (English / French).
|
||||
|
||||
Developed by **F4BPO**.
|
||||
|
||||
@@ -30,10 +33,16 @@ Developed by **F4BPO**.
|
||||
- **Callsign lookup** (QRZ.com / HamQTH) with photo, auto-fill of name/QTH/grid
|
||||
and the QRZ.com tab.
|
||||
- **Offline DXCC** resolution from `cty.dat` (country, CQ/ITU zones, continent),
|
||||
with `/MM` `/AM` and call-area (`/8`, `/W6`) handling, plus ClubLog DXpedition
|
||||
date overrides.
|
||||
with `/MM` `/AM` `/B` (beacon) and call-area (`/8`, `/W6`) handling, plus
|
||||
ClubLog DXpedition date overrides.
|
||||
- **Recent QSOs**, **Worked-before** matrix (per band/mode slot), bulk re-resolve
|
||||
from cty/QRZ/ClubLog, bulk send to QSL services.
|
||||
- **Advanced QSO filter builder** (field / operator / value, AND / OR, saved
|
||||
presets) with filtered- and selected-row **ADIF export**.
|
||||
- **Find duplicates** (Tools) — groups QSOs by same call + band + mode (optionally
|
||||
same day / minute) and lets you pick which to delete.
|
||||
- **ADIF 3.1.7 compliant** import/export: a full field dictionary, 30 promoted
|
||||
columns, a generic "extra fields" editor and standard/all export modes.
|
||||
- **Profiles:** every setting is per-profile; each profile can point its logbook
|
||||
at the local SQLite file or a **shared MySQL** database (multi-operator).
|
||||
|
||||
@@ -41,7 +50,8 @@ Developed by **F4BPO**.
|
||||
|
||||
- **Main view = two configurable panes** (per profile, Settings → General →
|
||||
*Main view*): great-circle map, locator (street) map, the cluster grid, the
|
||||
worked-before grid, or the **FlexRadio controls**.
|
||||
worked-before grid, recent QSOs, the **FlexRadio controls**, the **Icom
|
||||
console** or the **Net control** panel.
|
||||
- **Great-circle map** with short/long-path distance & azimuth, selectable
|
||||
basemaps (Light / Voyager / Street / Satellite, all key-free and labelled) and
|
||||
the **antenna beam lobe(s)** drawn from the rotor azimuth.
|
||||
@@ -58,15 +68,29 @@ Developed by **F4BPO**.
|
||||
pane, with a show/hide toggle.
|
||||
- Per-spot **status** (new / new-band / new-slot / worked), click-to-tune the
|
||||
rig, and a multi-band **Band Map** (panadapter-style strips).
|
||||
- **POTA** spots are tagged with their park reference (via `api.pota.app`).
|
||||
- **Spot alerts** (Log4OM-style): rules on call / country / band / mode /
|
||||
spotter, with sound, visual and e-mail notification (Tools → *Alert
|
||||
management*).
|
||||
|
||||
## CAT control
|
||||
|
||||
- **OmniRig** backend (Rig 1/2, hot-swap), and a native **FlexRadio (SmartSDR)**
|
||||
backend over the radio's TCP API — real-time slice freq/mode/split, auto
|
||||
reconnect, UDP discovery, and **panadapter spots** (cluster spots pushed to the
|
||||
Flex display, click → fill the call).
|
||||
- Mode is taken from the radio; the digital sub-mode (FT4 vs FT8) is inferred
|
||||
from the frequency.
|
||||
Four native backends (Settings → CAT), each with auto-reconnect and a fast,
|
||||
non-blocking connect so a powered-off radio never freezes the app:
|
||||
|
||||
- **OmniRig** (Rig 1/2, hot-swap) — works with any OmniRig-supported rig.
|
||||
- **FlexRadio (SmartSDR)** over the radio's TCP API — real-time slice freq /
|
||||
mode / split, UDP discovery, and **panadapter spots** (cluster spots pushed to
|
||||
the Flex display, click → fill the call).
|
||||
- **Icom CI-V** — native, over the radio's **USB** port *or* over the internet
|
||||
via the radio's **built-in LAN server** (see *Remote Icom* below). No RS-BA1 or
|
||||
Remote Utility needed.
|
||||
- **TCI** (WebSocket) — SunSDR / ExpertSDR2 and any TCI-compatible server:
|
||||
freq / mode / PTT / split, plus optional panorama spots.
|
||||
|
||||
Mode is taken from the radio; the digital sub-mode (FT4 vs FT8) is inferred from
|
||||
the frequency. **Per-band Flex RX/TX antennas** can be configured and are applied
|
||||
automatically on band change.
|
||||
|
||||
### FlexRadio control tab (SmartSDR-style)
|
||||
|
||||
@@ -80,19 +104,64 @@ Shown only when the CAT backend is a FlexRadio:
|
||||
- **Live meters** over the UDP VITA-49 stream: S-meter (S-units), forward power
|
||||
(W), SWR, ALC, PA temperature, voltage, plus the amplifier's meters.
|
||||
|
||||
### Icom control tab
|
||||
|
||||
Shown when the CAT backend is Icom (USB or network). A full RS-BA1-style console:
|
||||
|
||||
- **Twin VFO readout** (MAIN / SUB) with the big tabular frequency, mode badge,
|
||||
band and RIT/ΔTX offset, and a **mode-button row** (SSB / CW / RTTY / PSK /
|
||||
AM / FM).
|
||||
- **Spectrum scope + waterfall** (panadapter): ON/OFF, CTR/FIX, double-click to
|
||||
tune, and **◀ ⊙ ▶** buttons to centre the scope on the current frequency
|
||||
(±50 kHz) and pan left/right.
|
||||
- **Live meters** always visible: S-meter (click → fill RST), power in watts, SWR.
|
||||
- **Receive DSP:** AF / RF gain, squelch, AGC, preamp, attenuator, filter
|
||||
(FIL1/2/3), NB, NR, ANF and — **on CW only** — the **APF** (audio peak filter).
|
||||
- **Passband / notch:** Twin PBT (inner / outer), manual notch + position.
|
||||
- **Transmit:** RF power, MOX, TUNE, **split with an automatic offset**
|
||||
(+5 kHz on SSB, +1 kHz on CW), and monitor. On **voice modes only**: mic gain,
|
||||
speech compressor, VOX (+ gain + anti-VOX). Controls that don't apply to the
|
||||
current mode are hidden automatically.
|
||||
- **Bands & antenna:** one-touch band buttons and ANT1/ANT2 selection.
|
||||
- **Clarifiers:** RIT and ΔTX with wheel / ± tuning (Ctrl+←/→ nudges RIT).
|
||||
- **Power ON / OFF** buttons (manual by design — the app never wakes the rig on
|
||||
connect).
|
||||
- **CW keying** can run through the radio's own keyer (see *Keyers* below).
|
||||
|
||||
### Remote Icom (over the internet, no RS-BA1)
|
||||
|
||||
OpsLog speaks the IC-7610's built-in network protocol directly — it **replaces
|
||||
both the Icom Remote Utility and RS-BA1**. Enter the radio's IP, the Network
|
||||
User1 name/password and the CI-V address, and the whole Icom console works over
|
||||
the LAN/internet: login + token (auto-renewed), CI-V tunnel, receive-side
|
||||
retransmit for a rock-solid link even with the panadapter streaming, and manual
|
||||
power ON/OFF. (Audio is out of scope — use the radio in USB + a voice link such
|
||||
as Mumble.)
|
||||
|
||||
## Keyers & audio
|
||||
|
||||
- **WinKeyer** CW keyer (macros, F-key macros, auto-call repeat).
|
||||
- **Digital Voice Keyer** (DVK) message playback.
|
||||
- **QSO audio recording** (SSB/DAX) archived per QSO; disabled for CW (no DAX
|
||||
audio in CW).
|
||||
- **CW keyer** with macros and F-key macros. The keyer engine is selectable:
|
||||
**WinKeyer** (K1EL WK1/2/3 over a COM port), **Icom** (the radio's own keyer
|
||||
over CI-V — no extra hardware, works over the remote link too) or **TCI**.
|
||||
- **Digital Voice Keyer** (DVK): record F1–F6 voice messages and transmit them.
|
||||
- **QSO audio recording:** continuous rolling capture; on *Log QSO* the contact
|
||||
is saved to a per-QSO WAV (`CALL_YYYYMMDD_HHMMSS.wav`); mixes RX + mic.
|
||||
|
||||
## Amplifiers & switches
|
||||
|
||||
- **PowerGenius XL** (4O3A) amplifier — direct TCP: operate/standby, fan-mode
|
||||
selector and fault display.
|
||||
- **Antenna Genius** (4O3A) antenna switch over TCP/GSCP — a docked A/B
|
||||
antenna-switch widget.
|
||||
|
||||
## QSL & awards
|
||||
|
||||
- **Awards engine:** built-in + custom award definitions (shared **globally**
|
||||
across profiles), worked/confirmed/validated by band & mode, OR rules and
|
||||
manual reference assignment, live reference detection on call entry, and a
|
||||
**Rescan** that re-pulls the logbook (picks up fresh LoTW/QRZ confirmations).
|
||||
across profiles) — DXCC, WAS / WAZ / WAC, WPX, IOTA / POTA / SOTA / WWFF,
|
||||
**DDFM**, worked/confirmed/validated by band & mode, OR rules and manual
|
||||
reference assignment, live reference detection on call entry, **reference-list
|
||||
import** for totals/names, and a **Rescan** that re-pulls the logbook (picks up
|
||||
fresh LoTW/QRZ confirmations).
|
||||
- **QSL services:** ClubLog (batched ADIF upload), LoTW, QRZ.com, eQSL — upload
|
||||
and **confirmation download** (which auto-refreshes the award stats).
|
||||
- **QSL Card Designer** (see below).
|
||||
@@ -100,6 +169,13 @@ Shown only when the CAT backend is a FlexRadio:
|
||||
SMTP account. (Outlook/Hotmail disable basic-auth SMTP — use Gmail with an app
|
||||
password, or a Microsoft app password.)
|
||||
|
||||
## Contest logging
|
||||
|
||||
- **Contest tab:** pick a contest (built-in ADIF `CONTEST_ID` list) and an
|
||||
exchange (running serial or a fixed exchange). OpsLog auto-fills `CONTEST_ID`
|
||||
and the sent/received serials (`STX` / `SRX`), enforces a window start/end,
|
||||
flags dupes and keeps a live scoreboard.
|
||||
|
||||
## Multi-operator live status (special events)
|
||||
|
||||
For a multi-op special-event call on a shared MySQL logbook (e.g. **TM74TFR**):
|
||||
@@ -111,10 +187,37 @@ own web server reads that table and produces a live page/image you can embed on
|
||||
the station's **QRZ.com** bio (`<img src="…/tm74-status.php?img=1">`). OpsLog
|
||||
only writes to the DB — it is not a web server.
|
||||
|
||||
## Net control
|
||||
|
||||
- **Directed-net logging** (Tools → Net): a global roster (`nets.json`) plus an
|
||||
in-memory active session — check stations in, then log the whole net at once
|
||||
using the CAT frequency.
|
||||
|
||||
## Appearance & language
|
||||
|
||||
- **Themes:** four complete themes (Warm light, Warm dark, Graphite dark, High
|
||||
contrast) plus **Auto** (follows the OS light/dark preference), selectable in
|
||||
Settings → General. Every panel and every AG-Grid table follows the theme.
|
||||
- **Bilingual:** full **English / French** UI, with a first-run flag chooser and
|
||||
a switcher in Settings → General.
|
||||
|
||||
## Security
|
||||
|
||||
- **Secret vault:** opt-in passphrase encryption of the stored passwords
|
||||
(AES-GCM + PBKDF2). Encrypted values are portable; a single unlock prompt at
|
||||
launch decrypts them for the session.
|
||||
|
||||
## Integrations (outbound)
|
||||
|
||||
- **UDP emitters:** push the current frequency to **PstRotator**, radio info in
|
||||
**N1MM `RadioInfo`** format, or an **ADIF record on each logged QSO** — so
|
||||
external tools (rotator control, digital apps, other loggers) stay in sync.
|
||||
|
||||
## Other
|
||||
|
||||
- **Autostart:** launch external programs (WSJT-X, JTAlert, rotator control…) at
|
||||
OpsLog startup, skipping any already running.
|
||||
- **Backup:** optional database + ADIF backup at shutdown.
|
||||
- **Update check** at startup with a toast (toggleable).
|
||||
- **Anonymous usage telemetry** (a once-a-day heartbeat: random install ID +
|
||||
version + OS — no callsign or QSO data; opt-out in Preferences).
|
||||
@@ -156,3 +259,7 @@ commonly-worked DXCC entities.
|
||||
`data/` — instant even when the logbook is on a far-away MySQL.
|
||||
- **Logbook** (QSOs) lives where the active profile points it: the local SQLite
|
||||
file or a per-profile shared **MySQL** database.
|
||||
|
||||
---
|
||||
|
||||
*A French version of this document is available in [README.fr.md](README.fr.md).*
|
||||
|
||||
+10
-2
@@ -122,12 +122,20 @@ func (a *App) QSLGenerateProposals(photoPaths []string) ([]string, error) {
|
||||
return out, nil
|
||||
}
|
||||
|
||||
// QSLListTemplates returns all saved templates (defaults first).
|
||||
// QSLListTemplates returns the templates for the ACTIVE profile (its own plus any
|
||||
// shared/global ones), defaults first — so the default is per-profile, not a
|
||||
// single global list shared by every profile.
|
||||
func (a *App) QSLListTemplates() ([]QSLTemplateInfo, error) {
|
||||
if a.qslTemplates == nil {
|
||||
return nil, fmt.Errorf("db not initialized")
|
||||
}
|
||||
recs, err := a.qslTemplates.List(a.ctx)
|
||||
var recs []qslcard.Record
|
||||
var err error
|
||||
if p, e := a.profiles.Active(a.ctx); e == nil {
|
||||
recs, err = a.qslTemplates.ListFor(a.ctx, p.ID)
|
||||
} else {
|
||||
recs, err = a.qslTemplates.List(a.ctx)
|
||||
}
|
||||
if err != nil {
|
||||
return nil, err
|
||||
}
|
||||
|
||||
+401
-187
@@ -1,23 +1,21 @@
|
||||
// Command icomnettest is an iteration probe for the Icom IP remote protocol
|
||||
// (the LAN server built into the IC-7610 — the one RS-BA1 and wfview talk to).
|
||||
// We're reimplementing it from the public protocol description, so this tool
|
||||
// drives the CONTROL stream (default UDP 50001) and hex-dumps every packet both
|
||||
// ways, letting us confirm the framing / type codes against the real rig before
|
||||
// folding it into internal/cat/icomnet. Nothing here is copied from wfview
|
||||
// (GPLv3) — it's a clean-room implementation from the protocol structure.
|
||||
// Command icomnettest is an iteration probe for the Icom IP remote protocol —
|
||||
// the LAN server built into the IC-7610 that the Icom "Remote Utility" (and
|
||||
// wfview) talk to. OpsLog reimplements this directly so it can BE both the
|
||||
// Remote Utility (Ethernet ↔ radio) and the logger/CAT client, dropping the
|
||||
// virtual-COM + RS-BA1 chain entirely.
|
||||
//
|
||||
// This first milestone is the CONNECTION HANDSHAKE only (no login yet):
|
||||
// areYouThere → iAmHere → areYouReady → iAmReady → periodic idle pings.
|
||||
// Watch the log: if the rig answers our areYouThere we've got the framing right;
|
||||
// its reply reveals the remote station ID we echo back. Login (token + user/
|
||||
// password) is the next step once the handshake is confirmed.
|
||||
// This probe drives TWO streams and hex-dumps everything:
|
||||
// Control (UDP 50001): handshake → login → token [VERIFIED on the real rig]
|
||||
// CI-V (UDP 50002): handshake → openClose(open) → send CI-V read-freq
|
||||
// (FE FE 98 E0 03 FD) → print the rig's reply.
|
||||
// Framing (passcode table, packet offsets, CI-V data_packet, openclose) is
|
||||
// reimplemented from the public wfview protocol and verified byte-for-byte
|
||||
// against real Remote-Utility captures (build/bin/civ*.pcapng). No GPLv3 code.
|
||||
//
|
||||
// Usage:
|
||||
// go run ./cmd/icomnettest 192.168.1.60 # control port 50001
|
||||
// go run ./cmd/icomnettest 192.168.1.60 50001 20 # port + run seconds
|
||||
// go run ./cmd/icomnettest <rig-ip> <user> <pass> [compname]
|
||||
//
|
||||
// SAFE: only the control stream, no CI-V commands, no TX — it just opens and
|
||||
// pings, then disconnects. Share the log and we iterate.
|
||||
// SAFE: read-only CI-V (operating frequency). No TX, no writes.
|
||||
package main
|
||||
|
||||
import (
|
||||
@@ -26,83 +24,59 @@ import (
|
||||
"fmt"
|
||||
"net"
|
||||
"os"
|
||||
"strconv"
|
||||
"time"
|
||||
)
|
||||
|
||||
// Control-stream packet types (best-known values from the public protocol
|
||||
// description — the very thing we're verifying with this probe).
|
||||
const (
|
||||
typeAreYouThere = 0x03
|
||||
typeIAmHere = 0x04
|
||||
typeDisconnect = 0x05
|
||||
typeAreYouReady = 0x06 // same type both directions (areYouReady / iAmReady)
|
||||
typeIdle = 0x00 // 16-byte keepalive (retransmit/ack carrier)
|
||||
typePing = 0x07 // 21-byte ping (offset 16 = 0x00 request / 0x01 reply, +4-byte payload)
|
||||
)
|
||||
var le = binary.LittleEndian
|
||||
var be = binary.BigEndian
|
||||
|
||||
// ctrlPacket is the 16-byte common control packet, all fields little-endian:
|
||||
//
|
||||
// uint32 len (=0x10) · uint16 type · uint16 seq · uint32 sentid · uint32 rcvdid
|
||||
func ctrlPacket(typ uint16, seq uint16, sentid, rcvdid uint32) []byte {
|
||||
b := make([]byte, 16)
|
||||
binary.LittleEndian.PutUint32(b[0:], 0x10)
|
||||
binary.LittleEndian.PutUint16(b[4:], typ)
|
||||
binary.LittleEndian.PutUint16(b[6:], seq)
|
||||
binary.LittleEndian.PutUint32(b[8:], sentid)
|
||||
binary.LittleEndian.PutUint32(b[12:], rcvdid)
|
||||
return b
|
||||
}
|
||||
|
||||
// passcodeSeq is Icom's fixed obfuscation table for the login username/password
|
||||
// (used by RS-BA1). BEST-EFFORT public reconstruction — the values that matter
|
||||
// for a given credential are sequence[char+index]; if the radio rejects auth,
|
||||
// compare the "scrambled" bytes this tool prints against a real login capture to
|
||||
// correct the needed entries.
|
||||
// passcodeSeq — Icom's obfuscation table (values live at index 0x20..0x7e).
|
||||
// VERIFIED: user "f6bgc" → 3F 65 50 25 55 (matches the capture).
|
||||
var passcodeSeq = [256]byte{
|
||||
0x47, 0x5d, 0x4c, 0x42, 0x66, 0x20, 0x23, 0x46, 0x4e, 0x57, 0x45, 0x3d, 0x67, 0x76, 0x60, 0x41,
|
||||
0x62, 0x39, 0x59, 0x2d, 0x68, 0x7e, 0x20, 0x77, 0x5f, 0x51, 0x3e, 0x70, 0x4d, 0x1f, 0x74, 0x38,
|
||||
0x2c, 0x4b, 0x1e, 0x54, 0x30, 0x71, 0x2b, 0x2a, 0x66, 0x27, 0x2e, 0x58, 0x24, 0x21, 0x2f, 0x50,
|
||||
0x1b, 0x73, 0x69, 0x36, 0x1d, 0x4f, 0x1c, 0x51, 0x2e, 0x1e, 0x45, 0x2e, 0x22, 0x50, 0x64, 0x66,
|
||||
0x24, 0x36, 0x0c, 0x7d, 0x50, 0x25, 0x7c, 0x3f, 0x2d, 0x35, 0x71, 0x6a, 0x0e, 0x41, 0x2a, 0x67,
|
||||
0x7c, 0x64, 0x77, 0x67, 0x6d, 0x5b, 0x3d, 0x5b, 0x2b, 0x67, 0x6c, 0x39, 0x35, 0x76, 0x3b, 0x2f,
|
||||
0x2f, 0x6d, 0x59, 0x6e, 0x59, 0x77, 0x3b, 0x24, 0x74, 0x7c, 0x6b, 0x37, 0x54, 0x5c, 0x4d, 0x1f,
|
||||
0x27, 0x69, 0x5b, 0x2e, 0x28, 0x35, 0x77, 0x74, 0x35, 0x1f, 0x6a, 0x2a, 0x28, 0x30, 0x25, 0x20,
|
||||
0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0,
|
||||
0x47, 0x5d, 0x4c, 0x42, 0x66, 0x20, 0x23, 0x46, 0x4e, 0x57, 0x45, 0x3d, 0x67, 0x76, 0x60, 0x41, 0x62, 0x39, 0x59, 0x2d, 0x68, 0x7e,
|
||||
0x7c, 0x65, 0x7d, 0x49, 0x29, 0x72, 0x73, 0x78, 0x21, 0x6e, 0x5a, 0x5e, 0x4a, 0x3e, 0x71, 0x2c, 0x2a, 0x54, 0x3c, 0x3a, 0x63, 0x4f,
|
||||
0x43, 0x75, 0x27, 0x79, 0x5b, 0x35, 0x70, 0x48, 0x6b, 0x56, 0x6f, 0x34, 0x32, 0x6c, 0x30, 0x61, 0x6d, 0x7b, 0x2f, 0x4b, 0x64, 0x38,
|
||||
0x2b, 0x2e, 0x50, 0x40, 0x3f, 0x55, 0x33, 0x37, 0x25, 0x77, 0x24, 0x26, 0x74, 0x6a, 0x28, 0x53, 0x4d, 0x69, 0x22, 0x5c, 0x44, 0x31,
|
||||
0x36, 0x58, 0x3b, 0x7a, 0x51, 0x5f, 0x52,
|
||||
}
|
||||
|
||||
// passcode scrambles s (username or password) via the Icom sequence table.
|
||||
func passcode(s string) []byte {
|
||||
out := make([]byte, len(s))
|
||||
for i := 0; i < len(s); i++ {
|
||||
out := make([]byte, 0, len(s))
|
||||
for i := 0; i < len(s) && i < 16; i++ {
|
||||
p := int(s[i]) + i
|
||||
if p > 0x7f {
|
||||
p = ((p - 0x7f) % 0x33) - 1
|
||||
if p < 0 {
|
||||
p = 0
|
||||
}
|
||||
if p > 126 {
|
||||
p = 32 + p%127
|
||||
}
|
||||
out[i] = passcodeSeq[p&0xff]
|
||||
out = append(out, passcodeSeq[p])
|
||||
}
|
||||
return out
|
||||
}
|
||||
|
||||
// buildLogin builds the 0x80-byte login packet: control header + username/
|
||||
// password (scrambled) at 0x40/0x50 and the app name at 0x60. The middle fields
|
||||
// (payload size, request type, inner seq, token request) are a best-effort
|
||||
// reconstruction and may need adjustment against a capture.
|
||||
func buildLogin(seq uint16, sentid, rcvdid uint32, innerSeq, tokRequest uint16, user, pass, name string) []byte {
|
||||
// --- packet builders (offsets verified vs wfview structs + real captures) ---
|
||||
|
||||
func ctrlPacket(typ, seq uint16, sentid, rcvdid uint32) []byte {
|
||||
b := make([]byte, 16)
|
||||
le.PutUint32(b[0:], 0x10)
|
||||
le.PutUint16(b[4:], typ)
|
||||
le.PutUint16(b[6:], seq)
|
||||
le.PutUint32(b[8:], sentid)
|
||||
le.PutUint32(b[12:], rcvdid)
|
||||
return b
|
||||
}
|
||||
|
||||
func buildLogin(seq, innerSeq, tokReq uint16, sentid, rcvdid, token uint32, user, pass, name string) []byte {
|
||||
b := make([]byte, 0x80)
|
||||
binary.LittleEndian.PutUint32(b[0:], 0x80) // len
|
||||
// type (b[4:6]) = 0x00
|
||||
binary.LittleEndian.PutUint16(b[6:], seq)
|
||||
binary.LittleEndian.PutUint32(b[8:], sentid)
|
||||
binary.LittleEndian.PutUint32(b[12:], rcvdid)
|
||||
binary.LittleEndian.PutUint32(b[16:], 0x70) // payload size (len - 0x10)
|
||||
binary.LittleEndian.PutUint16(b[20:], 0x00) // requesttype
|
||||
binary.LittleEndian.PutUint16(b[22:], 0x01) // requestreply
|
||||
binary.LittleEndian.PutUint16(b[24:], innerSeq)
|
||||
binary.LittleEndian.PutUint16(b[26:], tokRequest)
|
||||
// token (b[0x20:0x24]) = 0 until the rig grants one
|
||||
le.PutUint32(b[0:], 0x80)
|
||||
le.PutUint16(b[6:], seq)
|
||||
le.PutUint32(b[8:], sentid)
|
||||
le.PutUint32(b[12:], rcvdid)
|
||||
be.PutUint32(b[0x10:], 0x80-0x10)
|
||||
b[0x14] = 0x01 // requestreply
|
||||
b[0x15] = 0x00 // requesttype = login
|
||||
be.PutUint16(b[0x16:], innerSeq)
|
||||
le.PutUint16(b[0x1a:], tokReq)
|
||||
le.PutUint32(b[0x1c:], token)
|
||||
copy(b[0x40:0x50], passcode(user))
|
||||
copy(b[0x50:0x60], passcode(pass))
|
||||
nm := name
|
||||
@@ -113,140 +87,380 @@ func buildLogin(seq uint16, sentid, rcvdid uint32, innerSeq, tokRequest uint16,
|
||||
return b
|
||||
}
|
||||
|
||||
func parseHeader(b []byte) (length uint32, typ, seq uint16, sentid, rcvdid uint32, ok bool) {
|
||||
func buildToken(seq, innerSeq, tokReq uint16, sentid, rcvdid, token uint32) []byte {
|
||||
b := make([]byte, 0x40)
|
||||
le.PutUint32(b[0:], 0x40)
|
||||
le.PutUint16(b[6:], seq)
|
||||
le.PutUint32(b[8:], sentid)
|
||||
le.PutUint32(b[12:], rcvdid)
|
||||
be.PutUint32(b[0x10:], 0x40-0x10)
|
||||
b[0x14] = 0x01 // requestreply
|
||||
b[0x15] = 0x02 // requesttype = token
|
||||
be.PutUint16(b[0x16:], innerSeq)
|
||||
le.PutUint16(b[0x1a:], tokReq)
|
||||
le.PutUint32(b[0x1c:], token)
|
||||
return b
|
||||
}
|
||||
|
||||
// buildConnInfo — 144-byte sendRequestStream on the CONTROL stream. Tells the
|
||||
// rig to route the CI-V/audio streams to the authenticated session and which
|
||||
// local ports we use. Values verified byte-for-byte vs a real Remote-Utility
|
||||
// capture (civ4): requesttype=0x03, commoncap=0x8010, the rig's MAC echoed,
|
||||
// name "IC-7610", scrambled username, rxenable=0 (audio off — CI-V only),
|
||||
// rxcodec 0x10 / txcodec 0x04, rxsample 16000 / txsample 8000 (BE), civport /
|
||||
// audioport (BE), txbuffer 100.
|
||||
func buildConnInfo(seq, innerSeq, tokReq uint16, sentid, rcvdid, token uint32, user string, rigMAC []byte, civPort, audioPort uint16) []byte {
|
||||
b := make([]byte, 0x90)
|
||||
le.PutUint32(b[0:], 0x90)
|
||||
le.PutUint16(b[6:], seq)
|
||||
le.PutUint32(b[8:], sentid)
|
||||
le.PutUint32(b[12:], rcvdid)
|
||||
be.PutUint32(b[0x10:], 0x90-0x10)
|
||||
b[0x14] = 0x01 // requestreply
|
||||
b[0x15] = 0x03 // requesttype = conninfo / open streams
|
||||
be.PutUint16(b[0x16:], innerSeq)
|
||||
le.PutUint16(b[0x1a:], tokReq)
|
||||
le.PutUint32(b[0x1c:], token)
|
||||
le.PutUint16(b[0x27:], 0x8010) // commoncap
|
||||
copy(b[0x2a:0x30], rigMAC) // macaddress (the rig's, echoed back)
|
||||
copy(b[0x40:0x60], []byte("IC-7610"))
|
||||
copy(b[0x60:0x70], passcode(user))
|
||||
b[0x70] = 0x00 // rxenable (0 = audio off)
|
||||
b[0x71] = 0x00 // txenable
|
||||
b[0x72] = 0x10 // rxcodec
|
||||
b[0x73] = 0x04 // txcodec
|
||||
be.PutUint32(b[0x74:], 16000) // rxsample
|
||||
be.PutUint32(b[0x78:], 8000) // txsample
|
||||
be.PutUint32(b[0x7c:], uint32(civPort))
|
||||
be.PutUint32(b[0x80:], uint32(audioPort))
|
||||
be.PutUint32(b[0x84:], 100) // txbuffer
|
||||
b[0x88] = 0x00 // convert
|
||||
return b
|
||||
}
|
||||
|
||||
// buildOpenClose — 22-byte start/stop for the CI-V stream. magic 0x04=open,
|
||||
// 0x00=close. data=0x01c0 (@0x10), civSeq (BE @0x13), magic (@0x15).
|
||||
func buildOpenClose(seq uint16, sentid, rcvdid uint32, civSeq uint16, magic byte) []byte {
|
||||
b := make([]byte, 0x16)
|
||||
le.PutUint32(b[0:], 0x16)
|
||||
le.PutUint16(b[6:], seq)
|
||||
le.PutUint32(b[8:], sentid)
|
||||
le.PutUint32(b[12:], rcvdid)
|
||||
le.PutUint16(b[0x10:], 0x01c0)
|
||||
be.PutUint16(b[0x13:], civSeq)
|
||||
b[0x15] = magic
|
||||
return b
|
||||
}
|
||||
|
||||
// buildCivData — wraps raw CI-V bytes: 21-byte header (reply 0xc1 @0x10,
|
||||
// datalen LE @0x11, civSeq BE @0x13) + CI-V frame @0x15.
|
||||
func buildCivData(seq uint16, sentid, rcvdid uint32, civSeq uint16, civ []byte) []byte {
|
||||
n := 0x15 + len(civ)
|
||||
b := make([]byte, n)
|
||||
le.PutUint32(b[0:], uint32(n))
|
||||
le.PutUint16(b[6:], seq)
|
||||
le.PutUint32(b[8:], sentid)
|
||||
le.PutUint32(b[12:], rcvdid)
|
||||
b[0x10] = 0xc1
|
||||
le.PutUint16(b[0x11:], uint16(len(civ)))
|
||||
be.PutUint16(b[0x13:], civSeq)
|
||||
copy(b[0x15:], civ)
|
||||
return b
|
||||
}
|
||||
|
||||
func header(b []byte) (length uint32, typ, seq uint16, sentid, rcvdid uint32, ok bool) {
|
||||
if len(b) < 16 {
|
||||
return 0, 0, 0, 0, 0, false
|
||||
}
|
||||
length = binary.LittleEndian.Uint32(b[0:])
|
||||
typ = binary.LittleEndian.Uint16(b[4:])
|
||||
seq = binary.LittleEndian.Uint16(b[6:])
|
||||
sentid = binary.LittleEndian.Uint32(b[8:])
|
||||
rcvdid = binary.LittleEndian.Uint32(b[12:])
|
||||
return length, typ, seq, sentid, rcvdid, true
|
||||
return le.Uint32(b[0:]), le.Uint16(b[4:]), le.Uint16(b[6:]), le.Uint32(b[8:]), le.Uint32(b[12:]), true
|
||||
}
|
||||
|
||||
func localID(conn net.Conn) uint32 {
|
||||
a := conn.LocalAddr().(*net.UDPAddr)
|
||||
return uint32(a.IP.To4()[0])<<24 | uint32(a.IP.To4()[1])<<16 | uint32(uint16(a.Port))
|
||||
}
|
||||
|
||||
func recv(conn net.Conn, ms int, buf []byte) ([]byte, bool) {
|
||||
_ = conn.SetReadDeadline(time.Now().Add(time.Duration(ms) * time.Millisecond))
|
||||
n, err := conn.Read(buf)
|
||||
if err != nil {
|
||||
return nil, false
|
||||
}
|
||||
return append([]byte(nil), buf[:n]...), true
|
||||
}
|
||||
|
||||
func dump(tag string, p []byte) { fmt.Printf("%s (%d)\n%s\n", tag, len(p), hex.Dump(p)) }
|
||||
|
||||
// pingReply mirrors a ping, swaps ids, sets the reply flag at offset 16.
|
||||
func pingReply(pkt []byte, myID, remoteID uint32) []byte {
|
||||
r := append([]byte(nil), pkt...)
|
||||
if len(r) >= 17 {
|
||||
le.PutUint32(r[8:], myID)
|
||||
le.PutUint32(r[12:], remoteID)
|
||||
r[16] = 0x01
|
||||
}
|
||||
return r
|
||||
}
|
||||
|
||||
// handshake: areYouThere(seq0) → iAmHere → areYouReady(seq1) → iAmReady.
|
||||
// Returns the rig's remote id. Replies to any pings meanwhile.
|
||||
func handshake(conn net.Conn, myID uint32, label string) (uint32, bool) {
|
||||
buf := make([]byte, 2048)
|
||||
conn.Write(ctrlPacket(0x03, 0, myID, 0)) // areYouThere
|
||||
fmt.Printf("[%s] TX areYouThere\n", label)
|
||||
var remoteID uint32
|
||||
deadline := time.Now().Add(4 * time.Second)
|
||||
lastTry := time.Now()
|
||||
for time.Now().Before(deadline) {
|
||||
p, ok := recv(conn, 200, buf)
|
||||
if !ok {
|
||||
if remoteID == 0 && time.Since(lastTry) > 500*time.Millisecond {
|
||||
conn.Write(ctrlPacket(0x03, 0, myID, 0))
|
||||
lastTry = time.Now()
|
||||
}
|
||||
continue
|
||||
}
|
||||
_, typ, _, sentid, _, ok := header(p)
|
||||
if !ok {
|
||||
continue
|
||||
}
|
||||
switch typ {
|
||||
case 0x04: // iAmHere
|
||||
remoteID = sentid
|
||||
fmt.Printf("[%s] iAmHere remoteID=0x%08X → TX areYouReady\n", label, remoteID)
|
||||
conn.Write(ctrlPacket(0x06, 1, myID, remoteID))
|
||||
case 0x06: // iAmReady
|
||||
if remoteID != 0 {
|
||||
fmt.Printf("[%s] iAmReady — link up ✓\n", label)
|
||||
return remoteID, true
|
||||
}
|
||||
case 0x07: // ping
|
||||
conn.Write(pingReply(p, myID, remoteID))
|
||||
}
|
||||
}
|
||||
return remoteID, false
|
||||
}
|
||||
|
||||
func main() {
|
||||
if len(os.Args) < 2 {
|
||||
fmt.Println("usage: icomnettest <rig-ip> [user] [password]")
|
||||
fmt.Println(" <rig-ip> only → handshake + ping probe")
|
||||
fmt.Println(" <rig-ip> <user> <pass> → also attempt login")
|
||||
fmt.Println("example: icomnettest 192.168.1.60 f6bgc cgb6f1")
|
||||
if len(os.Args) < 4 {
|
||||
fmt.Println("usage: icomnettest <rig-ip> <user> <pass> [compname]")
|
||||
os.Exit(2)
|
||||
}
|
||||
ip := os.Args[1]
|
||||
port := 50001
|
||||
runSecs := 25
|
||||
user, pass := "", ""
|
||||
if len(os.Args) >= 4 {
|
||||
user, pass = os.Args[2], os.Args[3]
|
||||
ip, user, pass := os.Args[1], os.Args[2], os.Args[3]
|
||||
compName := "OpsLog"
|
||||
if len(os.Args) >= 5 {
|
||||
compName = os.Args[4]
|
||||
}
|
||||
|
||||
target := net.JoinHostPort(ip, strconv.Itoa(port))
|
||||
conn, err := net.Dial("udp4", target)
|
||||
// ===================== CONTROL STREAM (50001) =====================
|
||||
ctrl, err := net.Dial("udp4", net.JoinHostPort(ip, "50001"))
|
||||
if err != nil {
|
||||
fmt.Printf("dial %s: %v\n", target, err)
|
||||
fmt.Printf("dial control: %v\n", err)
|
||||
os.Exit(1)
|
||||
}
|
||||
defer conn.Close()
|
||||
defer ctrl.Close()
|
||||
cID := localID(ctrl)
|
||||
fmt.Printf("=== CONTROL 50001 (myID=0x%08X) ===\n", cID)
|
||||
fmt.Printf("scrambled user=% X pass=% X\n\n", passcode(user), passcode(pass))
|
||||
|
||||
// Our local station ID. Real clients derive it from the local IP:port; a
|
||||
// stable non-zero value is fine for probing. We'll refine once we see how the
|
||||
// rig echoes it back.
|
||||
local := conn.LocalAddr().(*net.UDPAddr)
|
||||
myID := uint32(local.IP.To4()[0])<<24 | uint32(local.IP.To4()[1])<<16 | uint32(uint16(local.Port))
|
||||
var remoteID uint32
|
||||
var seq uint16
|
||||
|
||||
logTx := func(name string, p []byte) {
|
||||
fmt.Printf("TX %-14s (%d bytes)\n%s\n", name, len(p), hex.Dump(p))
|
||||
if _, err := conn.Write(p); err != nil {
|
||||
fmt.Printf(" write error: %v\n", err)
|
||||
}
|
||||
cRemote, ok := handshake(ctrl, cID, "ctrl")
|
||||
if !ok {
|
||||
fmt.Println("control handshake failed")
|
||||
return
|
||||
}
|
||||
|
||||
fmt.Printf("Probing Icom control stream at %s (myID=0x%08X)\n\n", target, myID)
|
||||
if user != "" {
|
||||
fmt.Printf("Login mode: user=%q pass=%q\n", user, pass)
|
||||
fmt.Printf(" scrambled user = % X\n", passcode(user))
|
||||
fmt.Printf(" scrambled pass = % X\n\n", passcode(pass))
|
||||
}
|
||||
var innerSeq uint16 = 0x0001
|
||||
var tokRequest uint16 = 0x1234 // fixed for reproducibility (no RNG in this probe)
|
||||
loginSent := false
|
||||
// login → token
|
||||
var cTracked uint16 = 1
|
||||
var cInner uint16 = 1
|
||||
tokReq := uint16(0x0c77)
|
||||
dump("[ctrl] TX login", buildLogin(cTracked, cInner, tokReq, cID, cRemote, 0, user, pass, compName))
|
||||
ctrl.Write(buildLogin(cTracked, cInner, tokReq, cID, cRemote, 0, user, pass, compName))
|
||||
cTracked++
|
||||
cInner++
|
||||
|
||||
// 1) areYouThere — ask the rig to announce itself.
|
||||
seq++
|
||||
logTx("areYouThere", ctrlPacket(typeAreYouThere, seq, myID, 0))
|
||||
|
||||
// Read loop: dump everything, and advance the handshake when we recognise a
|
||||
// reply. Runs for runSecs then disconnects.
|
||||
deadline := time.Now().Add(time.Duration(runSecs) * time.Second)
|
||||
var token uint32
|
||||
buf := make([]byte, 2048)
|
||||
lastIdle := time.Now()
|
||||
readyStarted := false
|
||||
for time.Now().Before(deadline) {
|
||||
_ = conn.SetReadDeadline(time.Now().Add(200 * time.Millisecond))
|
||||
n, err := conn.Read(buf)
|
||||
if err != nil {
|
||||
if ne, ok := err.(net.Error); ok && ne.Timeout() {
|
||||
// Periodic idle keepalive once connected.
|
||||
if remoteID != 0 && time.Since(lastIdle) > 100*time.Millisecond {
|
||||
seq++
|
||||
logTx("idle", ctrlPacket(typeIdle, seq, myID, remoteID))
|
||||
lastIdle = time.Now()
|
||||
}
|
||||
continue
|
||||
}
|
||||
fmt.Printf("read error: %v\n", err)
|
||||
break
|
||||
}
|
||||
pkt := append([]byte(nil), buf[:n]...)
|
||||
length, typ, rseq, sentid, rcvdid, ok := parseHeader(pkt)
|
||||
deadline := time.Now().Add(4 * time.Second)
|
||||
for token == 0 && time.Now().Before(deadline) {
|
||||
p, ok := recv(ctrl, 200, buf)
|
||||
if !ok {
|
||||
fmt.Printf("RX (%d bytes, too short to parse)\n%s\n", n, hex.Dump(pkt))
|
||||
continue
|
||||
}
|
||||
fmt.Printf("RX len=%d type=0x%02X seq=%d sentid=0x%08X rcvdid=0x%08X (%d bytes)\n%s\n",
|
||||
length, typ, rseq, sentid, rcvdid, n, hex.Dump(pkt))
|
||||
length, typ, _, _, _, _ := header(p)
|
||||
if typ == 0x00 && length == 0x60 && len(p) >= 0x34 { // login response
|
||||
token = le.Uint32(p[0x1c:])
|
||||
errCode := le.Uint32(p[0x30:])
|
||||
if errCode != 0 || token == 0 {
|
||||
fmt.Printf(">> LOGIN REJECTED err=0x%08X token=0x%08X\n", errCode, token)
|
||||
return
|
||||
}
|
||||
fmt.Printf(">> LOGIN OK ✓ token=0x%08X\n", token)
|
||||
ctrl.Write(buildToken(cTracked, cInner, tokReq, cID, cRemote, token))
|
||||
cTracked++
|
||||
cInner++
|
||||
} else if typ == 0x07 {
|
||||
ctrl.Write(pingReply(p, cID, cRemote))
|
||||
}
|
||||
}
|
||||
if token == 0 {
|
||||
fmt.Println("no token — login not accepted")
|
||||
return
|
||||
}
|
||||
|
||||
switch typ {
|
||||
case typeIAmHere:
|
||||
remoteID = sentid // the rig's ID — echo it back as rcvdid from now on
|
||||
fmt.Printf(">> iAmHere: remoteID=0x%08X — sending areYouReady\n\n", remoteID)
|
||||
seq++
|
||||
logTx("areYouReady", ctrlPacket(typeAreYouReady, seq, myID, remoteID))
|
||||
readyStarted = true
|
||||
case typeAreYouReady:
|
||||
if readyStarted && !loginSent {
|
||||
fmt.Printf(">> iAmReady — control link is up.\n\n")
|
||||
if user != "" {
|
||||
seq++
|
||||
lg := buildLogin(seq, myID, remoteID, innerSeq, tokRequest, user, pass, "OpsLog")
|
||||
fmt.Printf(">> sending login (user=%q)\n", user)
|
||||
logTx("login", lg)
|
||||
loginSent = true
|
||||
}
|
||||
// Send conninfo on the control stream — routes the CI-V stream to this
|
||||
// authenticated session and announces our civ/audio local ports (50002/3).
|
||||
rigMAC := []byte{0x00, 0x90, 0xc7, 0x09, 0xba, 0x3f} // F6BGC's IC-7610 (from the caps packet)
|
||||
dump("[ctrl] TX conninfo", buildConnInfo(cTracked, cInner, tokReq, cID, cRemote, token, user, rigMAC, 50002, 50003))
|
||||
ctrl.Write(buildConnInfo(cTracked, cInner, tokReq, cID, cRemote, token, user, rigMAC, 50002, 50003))
|
||||
cTracked++
|
||||
cInner++
|
||||
// Let the rig's caps/conninfo replies flow for ~600ms (reply to pings).
|
||||
drainEnd := time.Now().Add(600 * time.Millisecond)
|
||||
for time.Now().Before(drainEnd) {
|
||||
if p, ok := recv(ctrl, 100, buf); ok {
|
||||
if _, typ, _, _, _, _ := header(p); typ == 0x07 {
|
||||
ctrl.Write(pingReply(p, cID, cRemote))
|
||||
}
|
||||
case typePing:
|
||||
// Reply to the rig's ping: mirror the packet, swap sender/receiver IDs,
|
||||
// set the reply flag at offset 16. Keeps the link healthy so we can
|
||||
// observe the connection long enough to work on login.
|
||||
reply := append([]byte(nil), pkt...)
|
||||
if len(reply) >= 17 {
|
||||
binary.LittleEndian.PutUint32(reply[8:], myID)
|
||||
binary.LittleEndian.PutUint32(reply[12:], remoteID)
|
||||
reply[16] = 0x01 // request → reply
|
||||
logTx("pingReply", reply)
|
||||
}
|
||||
case typeDisconnect:
|
||||
fmt.Printf(">> rig sent disconnect\n\n")
|
||||
}
|
||||
}
|
||||
|
||||
// Clean disconnect.
|
||||
if remoteID != 0 {
|
||||
seq++
|
||||
logTx("disconnect", ctrlPacket(typeDisconnect, seq, myID, remoteID))
|
||||
// ===================== CI-V STREAM (50002) =====================
|
||||
// Bind our civ socket to LOCAL port 50002 (= the civport announced above),
|
||||
// as the Remote Utility does. Requires the Remote Utility to be CLOSED.
|
||||
civ, err := net.DialUDP("udp4", &net.UDPAddr{Port: 50002}, &net.UDPAddr{IP: net.ParseIP(ip), Port: 50002})
|
||||
if err != nil {
|
||||
fmt.Printf("dial civ (local :50002 — is the Remote Utility still running?): %v\n", err)
|
||||
return
|
||||
}
|
||||
fmt.Println("Done. Paste the log — especially the rig's replies to areYouThere.")
|
||||
defer civ.Close()
|
||||
vID := localID(civ)
|
||||
fmt.Printf("\n=== CI-V 50002 (myID=0x%08X) ===\n", vID)
|
||||
vRemote, ok := handshake(civ, vID, "civ")
|
||||
if !ok {
|
||||
fmt.Println("CI-V handshake failed (may need the conninfo packet on control first)")
|
||||
return
|
||||
}
|
||||
|
||||
var vTracked uint16 = 1 // outer tracked seq @0x06
|
||||
var vCivSeq uint16 = 1 // inner CI-V seq @0x13 (BE)
|
||||
// openClose(open) starts CI-V data flow.
|
||||
dump("[civ] TX openClose(open)", buildOpenClose(vTracked, vID, vRemote, vCivSeq, 0x04))
|
||||
civ.Write(buildOpenClose(vTracked, vID, vRemote, vCivSeq, 0x04))
|
||||
vTracked++
|
||||
vCivSeq++
|
||||
|
||||
// Try several read commands, spaced out. Some rigs NG the basic 0x03 read
|
||||
// over the network tunnel; 0x25 / 0x04 and unsolicited transceive frames
|
||||
// (sent when you turn the VFO) still work. The tunnel itself is proven, so
|
||||
// this figures out which read the rig actually answers.
|
||||
sendCiv := func(name string, f []byte) {
|
||||
fmt.Printf("[civ] TX %s\n", name)
|
||||
civ.Write(buildCivData(vTracked, vID, vRemote, vCivSeq, f))
|
||||
vTracked++
|
||||
vCivSeq++
|
||||
}
|
||||
// The rig is in STANDBY (network up, radio off) — it NG's every command
|
||||
// until powered on via CI-V. Send power-on (0x18 0x01, with an FE wake
|
||||
// preamble, as the Remote Utility does), then poll read-freq while it boots.
|
||||
powerOn := make([]byte, 0, 32)
|
||||
for i := 0; i < 25; i++ {
|
||||
powerOn = append(powerOn, 0xFE)
|
||||
}
|
||||
powerOn = append(powerOn, 0xFE, 0xFE, 0x98, 0xE0, 0x18, 0x01, 0xFD)
|
||||
time.Sleep(300 * time.Millisecond)
|
||||
sendCiv("POWER ON (0x18 01)", powerOn)
|
||||
fmt.Print("\n>>> rig booting (~10-15 s) — polling read-freq until it answers <<<\n\n")
|
||||
readFreq := []byte{0xFE, 0xFE, 0x98, 0xE0, 0x03, 0xFD}
|
||||
|
||||
cbuf := make([]byte, 4096)
|
||||
vbuf := make([]byte, 4096)
|
||||
end := time.Now().Add(30 * time.Second)
|
||||
lastIdleC, lastIdleV, lastCmd := time.Now(), time.Now(), time.Now()
|
||||
for time.Now().Before(end) {
|
||||
if p, ok := recv(ctrl, 40, cbuf); ok {
|
||||
if _, typ, _, _, _, _ := header(p); typ == 0x07 {
|
||||
ctrl.Write(pingReply(p, cID, cRemote))
|
||||
}
|
||||
} else if time.Since(lastIdleC) > 200*time.Millisecond {
|
||||
ctrl.Write(ctrlPacket(0x00, 0, cID, cRemote))
|
||||
lastIdleC = time.Now()
|
||||
}
|
||||
if p, ok := recv(civ, 40, vbuf); ok {
|
||||
_, typ, _, _, _, _ := header(p)
|
||||
if typ == 0x07 {
|
||||
civ.Write(pingReply(p, vID, vRemote))
|
||||
} else if typ == 0x00 && len(p) > 0x15 && p[0x10] == 0xc1 {
|
||||
f := p[0x15:]
|
||||
if d := decodeCiv(f); d != "" {
|
||||
fmt.Printf(">> CI-V RX: % X %s\n", f, d)
|
||||
}
|
||||
}
|
||||
} else if time.Since(lastIdleV) > 200*time.Millisecond {
|
||||
civ.Write(ctrlPacket(0x00, 0, vID, vRemote))
|
||||
lastIdleV = time.Now()
|
||||
}
|
||||
if time.Since(lastCmd) > 1000*time.Millisecond {
|
||||
sendCiv("read-freq 0x03", readFreq)
|
||||
lastCmd = time.Now()
|
||||
}
|
||||
}
|
||||
|
||||
// Clean close.
|
||||
civ.Write(buildOpenClose(vTracked, vID, vRemote, vCivSeq, 0x00)) // openClose(close)
|
||||
civ.Write(ctrlPacket(0x05, 0, vID, vRemote)) // disconnect
|
||||
ctrl.Write(ctrlPacket(0x05, 0, cID, cRemote))
|
||||
fmt.Println("\nDone. Look for '>> CI-V RX:' and 'FREQUENCY reply'.")
|
||||
}
|
||||
|
||||
// decodeCiv describes a received CI-V frame (FE FE <to> <from> <cmd> … FD).
|
||||
// Only frames FROM the rig (from=0x98) are interesting; our own echoed commands
|
||||
// (from=0xE0) return "" so they're not printed.
|
||||
func decodeCiv(f []byte) string {
|
||||
if len(f) < 6 || f[0] != 0xFE || f[1] != 0xFE {
|
||||
return ""
|
||||
}
|
||||
if f[3] != 0x98 { // not from the rig (our echoed command) — skip
|
||||
return ""
|
||||
}
|
||||
cmd := f[4]
|
||||
body := f[5 : len(f)-1] // between cmd and the trailing FD
|
||||
switch cmd {
|
||||
case 0xFA:
|
||||
return "NG (command rejected)"
|
||||
case 0xFB:
|
||||
return "OK (ack)"
|
||||
case 0x00, 0x03, 0x05: // (transceive) freq / read-freq
|
||||
if len(body) >= 5 {
|
||||
return "FREQ " + decodeFreq(body[:5])
|
||||
}
|
||||
case 0x25: // read/set VFO freq (body = subcmd + 5 BCD)
|
||||
if len(body) >= 6 {
|
||||
return fmt.Sprintf("VFO%d FREQ %s", body[0], decodeFreq(body[1:6]))
|
||||
}
|
||||
case 0x01, 0x04: // (transceive) mode / read-mode
|
||||
if len(body) >= 1 {
|
||||
return fmt.Sprintf("MODE 0x%02X filt 0x%02X", body[0], lastOr(body, 1))
|
||||
}
|
||||
}
|
||||
return fmt.Sprintf("cmd 0x%02X", cmd)
|
||||
}
|
||||
|
||||
func lastOr(b []byte, i int) byte {
|
||||
if i < len(b) {
|
||||
return b[i]
|
||||
}
|
||||
return 0
|
||||
}
|
||||
|
||||
// decodeFreq turns Icom little-endian BCD (5 bytes) into a MHz string.
|
||||
func decodeFreq(bcd []byte) string {
|
||||
var hz uint64
|
||||
mul := uint64(1)
|
||||
for _, b := range bcd {
|
||||
hz += uint64(b&0x0f) * mul
|
||||
mul *= 10
|
||||
hz += uint64(b>>4) * mul
|
||||
mul *= 10
|
||||
}
|
||||
return fmt.Sprintf("%.6f MHz", float64(hz)/1e6)
|
||||
}
|
||||
|
||||
@@ -17,6 +17,7 @@
|
||||
*/
|
||||
|
||||
$DB_HOST = '10.10.10.15'; // your MySQL host (same as OpsLog's logbook)
|
||||
$DB_PORT = 3306; // MySQL port — change if your server listens elsewhere
|
||||
$DB_NAME = 'opslog'; // database name
|
||||
$DB_USER = 'opslog';
|
||||
$DB_PASS = 'CHANGE_ME';
|
||||
@@ -27,7 +28,7 @@ $STALE_SECONDS = 120; // an operator is "active" if seen within this wi
|
||||
// instead of a fatal "table doesn't exist".
|
||||
mysqli_report(MYSQLI_REPORT_OFF);
|
||||
|
||||
$mysqli = @new mysqli($DB_HOST, $DB_USER, $DB_PASS, $DB_NAME);
|
||||
$mysqli = @new mysqli($DB_HOST, $DB_USER, $DB_PASS, $DB_NAME, $DB_PORT);
|
||||
if ($mysqli->connect_errno) {
|
||||
http_response_code(500);
|
||||
exit('DB error');
|
||||
|
||||
+189
-17
@@ -1,6 +1,6 @@
|
||||
import { useCallback, useEffect, useMemo, useRef, useState } from 'react';
|
||||
import {
|
||||
AlertCircle, Antenna, CheckCircle2, Clock, Compass, Database, Ear, Eraser, Hash, Loader2, Lock,
|
||||
AlertCircle, Antenna, Bell, CheckCircle2, Clock, Compass, Database, Ear, Eraser, Hash, Loader2, Lock,
|
||||
Maximize2, Minimize2, Mic, MessageSquare, Pencil, RadioTower, RefreshCw, Satellite, Send, Settings, SlidersHorizontal, Square, Trash2, Unlock, X, Zap,
|
||||
} from 'lucide-react';
|
||||
|
||||
@@ -26,6 +26,8 @@ import {
|
||||
ConnectAllClusters, DisconnectAllClusters, GetClusterStatus, SendClusterCommand,
|
||||
ListClusterServers, ClusterSpotStatuses, SendClusterSpot,
|
||||
GetCATSettings,
|
||||
GetSolarData,
|
||||
LoTWUserInfo,
|
||||
OperatingDefaultForBand,
|
||||
LogUDPLoggedADIF,
|
||||
ListCountries,
|
||||
@@ -366,6 +368,35 @@ export default function App() {
|
||||
|
||||
// CAT — receives live rig state via Wails events.
|
||||
const [catState, setCatState] = useState<CATState>({ enabled: false, connected: false } as any);
|
||||
// Configured CAT backend ('icom' USB vs 'icom-net'): the live catState.backend
|
||||
// is "icom" for BOTH, so we track the settings value to tell them apart (used to
|
||||
// hide the rig ON/OFF buttons on USB, where the interface is unpowered when the
|
||||
// rig is off so power-ON can't work).
|
||||
const [catBackend, setCatBackend] = useState('');
|
||||
// Live space-weather (solar flux / sunspots / A / K) for the header strip.
|
||||
// Loaded on mount, refreshed on the backend 'solar:update' event, plus a slow
|
||||
// fallback poll. These same numbers are stamped onto each logged QSO.
|
||||
const [solar, setSolar] = useState<any>(null);
|
||||
useEffect(() => {
|
||||
const load = () => { GetSolarData().then((d) => setSolar(d ?? null)).catch(() => {}); };
|
||||
load();
|
||||
const off = EventsOn('solar:update', load);
|
||||
const id = window.setInterval(load, 60 * 60 * 1000); // hourly fallback; the event refreshes it live
|
||||
return () => { off(); window.clearInterval(id); };
|
||||
}, []);
|
||||
// LoTW-user lookup for the entered callsign (from the cached ARRL activity list),
|
||||
// debounced. Drives a colour-coded LoTW badge by last-upload recency.
|
||||
const [lotwInfo, setLotwInfo] = useState<{ is_user: boolean; last_upload?: string; days_ago: number } | null>(null);
|
||||
useEffect(() => {
|
||||
const c = callsign.trim();
|
||||
if (!c) { setLotwInfo(null); return; }
|
||||
const run = () => { LoTWUserInfo(c).then((r) => setLotwInfo(r as any)).catch(() => setLotwInfo(null)); };
|
||||
const t = window.setTimeout(run, 300);
|
||||
// Re-run when the background auto-download finishes (so a call typed before
|
||||
// the list loaded gets its badge without re-typing).
|
||||
const off = EventsOn('lotwusers:updated', run);
|
||||
return () => { window.clearTimeout(t); off(); };
|
||||
}, [callsign]);
|
||||
const [rotatorHeading, setRotatorHeading] = useState<{ enabled: boolean; ok: boolean; azimuth: number }>({ enabled: false, ok: false, azimuth: 0 });
|
||||
const [ubStatus, setUbStatus] = useState<{ enabled: boolean; connected: boolean; direction: number; moving: boolean }>({ enabled: false, connected: false, direction: 0, moving: false });
|
||||
const [agStatus, setAgStatus] = useState<AGStatus>({ connected: false, port_a: 0, port_b: 0, antennas: [] });
|
||||
@@ -793,6 +824,22 @@ export default function App() {
|
||||
|
||||
const [alertsOpen, setAlertsOpen] = useState(false); // Alert management modal
|
||||
|
||||
// Persistent spot-alert tray: keep the last few fired alerts visible (they used
|
||||
// to vanish with the 3 s toast, lost if you were on another window). Each stays
|
||||
// ~10 min and is clickable to tune the rig to its freq/mode.
|
||||
type RecentAlert = { id: number; rule: string; call: string; band: string; mode: string; freq_hz: number; country: string; comment: string; at: number };
|
||||
const [recentAlerts, setRecentAlerts] = useState<RecentAlert[]>([]);
|
||||
const [alertsPanelOpen, setAlertsPanelOpen] = useState(false); // LED dropdown
|
||||
const ALERT_TTL_MS = 10 * 60 * 1000;
|
||||
useEffect(() => {
|
||||
const id = window.setInterval(() => {
|
||||
setRecentAlerts((prev) => { const cut = Date.now() - ALERT_TTL_MS; const n = prev.filter((a) => a.at >= cut); return n.length === prev.length ? prev : n; });
|
||||
}, 20000);
|
||||
return () => window.clearInterval(id);
|
||||
}, []);
|
||||
// Close the (now-hidden) dropdown when the last alert clears/expires.
|
||||
useEffect(() => { if (recentAlerts.length === 0) setAlertsPanelOpen(false); }, [recentAlerts.length]);
|
||||
|
||||
// NET Control tab — enabled from Tools (persisted; once on it's a tab like Cluster).
|
||||
const [netEnabled, setNetEnabled] = useState(() => localStorage.getItem('opslog.netEnabled') === '1');
|
||||
useEffect(() => { localStorage.setItem('opslog.netEnabled', netEnabled ? '1' : '0'); }, [netEnabled]);
|
||||
@@ -889,12 +936,12 @@ export default function App() {
|
||||
// map ("map1"), the locator street map ("map2"), the cluster grid or the
|
||||
// worked-before grid. Per-profile (stored via SetUIPref → profile-prefixed),
|
||||
// so it's loaded async on mount and re-read on profile:changed below.
|
||||
type MainPaneKind = 'map1' | 'map2' | 'cluster' | 'worked' | 'flex' | 'recent';
|
||||
type MainPaneKind = 'map1' | 'map2' | 'cluster' | 'worked' | 'flex' | 'recent' | 'icom' | 'netcontrol';
|
||||
const [mapZoomSignal, setMapZoomSignal] = useState(0); // bump → world map auto-zooms now
|
||||
const [mainPaneLeft, setMainPaneLeft] = useState<MainPaneKind>('map1');
|
||||
const [mainPaneRight, setMainPaneRight] = useState<MainPaneKind>('map2');
|
||||
const loadMainPanes = useCallback(async () => {
|
||||
const valid = (v: string): v is MainPaneKind => v === 'map1' || v === 'map2' || v === 'cluster' || v === 'worked' || v === 'flex' || v === 'recent';
|
||||
const valid = (v: string): v is MainPaneKind => v === 'map1' || v === 'map2' || v === 'cluster' || v === 'worked' || v === 'flex' || v === 'recent' || v === 'icom' || v === 'netcontrol';
|
||||
const [l, r] = await Promise.all([
|
||||
GetUIPref('mainPaneLeft').catch(() => ''),
|
||||
GetUIPref('mainPaneRight').catch(() => ''),
|
||||
@@ -994,11 +1041,15 @@ export default function App() {
|
||||
// list once, then compute each shown QSO's reference per award and attach it
|
||||
// to the rows (the grids render one hideable column per award).
|
||||
const [awardCols, setAwardCols] = useState<{ code: string; name: string }[]>([]);
|
||||
// Bumped whenever award definitions are saved so the grid columns AND the
|
||||
// per-QSO refs re-fetch — the ref/name display choice is computed live, so
|
||||
// changing it updates ALL contacts (old included) with no restart.
|
||||
const [awardsVersion, setAwardsVersion] = useState(0);
|
||||
useEffect(() => {
|
||||
GetAwardDefs().then((defs: any[]) =>
|
||||
setAwardCols(((defs ?? []) as any[]).map((d) => ({ code: d.code, name: d.name })).sort((a, b) => a.code.localeCompare(b.code))),
|
||||
).catch(() => {});
|
||||
}, []);
|
||||
}, [awardsVersion]);
|
||||
const [qsoAwardRefs, setQsoAwardRefs] = useState<Record<string, Record<string, string>>>({});
|
||||
useEffect(() => {
|
||||
const ids = (qsos as any[]).map((q) => q.id).filter(Boolean);
|
||||
@@ -1006,7 +1057,7 @@ export default function App() {
|
||||
let alive = true;
|
||||
AwardRefsForQSOs(ids as any).then((m: any) => { if (alive) setQsoAwardRefs(m ?? {}); }).catch(() => {});
|
||||
return () => { alive = false; };
|
||||
}, [qsos, awardCols.length]);
|
||||
}, [qsos, awardCols.length, awardsVersion]);
|
||||
const qsosWithAwards = useMemo(
|
||||
() => (qsos as any[]).map((q) => ({ ...q, award_refs: qsoAwardRefs[String(q.id)] })),
|
||||
[qsos, qsoAwardRefs],
|
||||
@@ -1018,7 +1069,7 @@ export default function App() {
|
||||
let alive = true;
|
||||
AwardRefsForQSOs(ids as any).then((m: any) => { if (alive) setWbAwardRefs(m ?? {}); }).catch(() => {});
|
||||
return () => { alive = false; };
|
||||
}, [wb, awardCols.length]);
|
||||
}, [wb, awardCols.length, awardsVersion]);
|
||||
const wbWithAwards = useMemo(
|
||||
() => (wb ? { ...wb, entries: ((wb.entries ?? []) as any[]).map((e) => ({ ...e, award_refs: wbAwardRefs[String(e.id)] })) } : null),
|
||||
[wb, wbAwardRefs],
|
||||
@@ -1197,9 +1248,17 @@ export default function App() {
|
||||
if (p?.visual) {
|
||||
const call = String(p?.call ?? ''); const band = String(p?.band ?? ''); const rule = String(p?.rule ?? 'alert');
|
||||
showToast(`🔔 ${rule}: ${call}${band ? ` on ${band}` : ''}${p?.country ? ` — ${p.country}` : ''}`);
|
||||
// Also keep it in the persistent tray (clickable, ~10 min).
|
||||
const a: RecentAlert = {
|
||||
id: Date.now() + Math.random(), rule, call, band,
|
||||
mode: String(p?.mode ?? ''), freq_hz: Number(p?.freq_hz ?? 0),
|
||||
country: String(p?.country ?? ''), comment: String(p?.comment ?? ''), at: Date.now(),
|
||||
};
|
||||
setRecentAlerts((prev) => [a, ...prev.filter((x) => !(x.call === a.call && x.band === a.band))].slice(0, 3));
|
||||
}
|
||||
});
|
||||
return () => { off(); };
|
||||
// eslint-disable-next-line react-hooks/exhaustive-deps
|
||||
}, [showToast]);
|
||||
|
||||
// Poll PstRotator for the live antenna heading (status bar). Cheap when the
|
||||
@@ -1324,6 +1383,7 @@ export default function App() {
|
||||
try {
|
||||
const c = await GetCATSettings();
|
||||
if (c.digital_default) digitalDefaultRef.current = c.digital_default;
|
||||
setCatBackend(c.backend ?? '');
|
||||
} catch {}
|
||||
}, []);
|
||||
const loadLists = useCallback(async () => {
|
||||
@@ -2697,6 +2757,66 @@ export default function App() {
|
||||
<Input value={grid} placeholder="JN05" className="font-mono" onChange={(e) => { setGrid(e.target.value); markEdited('grid'); }} />
|
||||
</div>
|
||||
);
|
||||
// LoTW-user badge: shown only when the entered call is a LoTW user, coloured by
|
||||
// last-upload recency (green < 1 week · amber 1–4 weeks · red > 30 days). The
|
||||
// tooltip shows the exact last-upload date. Needs the list downloaded once
|
||||
// (Settings → LoTW); until then no badge appears.
|
||||
const lotwBlock = (lotwInfo && lotwInfo.is_user) ? (() => {
|
||||
const d = lotwInfo.days_ago ?? -1;
|
||||
const cls = d >= 0 && d < 7 ? 'border-success text-success bg-success/15'
|
||||
: d < 30 ? 'border-warning text-warning bg-warning/15'
|
||||
: 'border-danger text-danger bg-danger/15';
|
||||
return (
|
||||
<div className="self-end shrink-0" title={t('lotw.userTip', { date: lotwInfo.last_upload || '?', days: d })}>
|
||||
<span className={cn('inline-flex items-center rounded-md border px-1.5 py-1.5 text-[10px] font-extrabold tracking-wide leading-none', cls)}>
|
||||
LoTW
|
||||
</span>
|
||||
</div>
|
||||
);
|
||||
})() : null;
|
||||
// A discreet spot-alert LED (bell) that fills the gap at the right of the Grid
|
||||
// row instead of the intrusive floating cards. It lights + shows a count when
|
||||
// alerts are pending; click it to see the last 3 (each clickable to tune).
|
||||
const hasAlerts = recentAlerts.length > 0;
|
||||
// Only show the bell when there are pending alerts — hidden otherwise.
|
||||
const alertLedBlock = !hasAlerts ? null : (
|
||||
<div className="relative self-end mb-0.5 shrink-0">
|
||||
<button type="button" onClick={() => setAlertsPanelOpen((o) => !o)}
|
||||
title={hasAlerts ? t('alert.pending', { n: recentAlerts.length }) : t('alert.noneShort')}
|
||||
className={cn('relative inline-flex size-8 items-center justify-center rounded-full border transition-colors',
|
||||
hasAlerts ? 'border-warning bg-warning/15 text-warning' : 'border-border bg-card text-muted-foreground hover:bg-muted')}>
|
||||
<Bell className="size-4" />
|
||||
{hasAlerts && <span className="absolute -right-1 -top-1 inline-flex size-2.5 rounded-full bg-warning animate-ping" />}
|
||||
{hasAlerts && <span className="absolute -right-1 -top-1 inline-flex size-2.5 rounded-full bg-warning" />}
|
||||
</button>
|
||||
{alertsPanelOpen && (
|
||||
<>
|
||||
<div className="fixed inset-0 z-40" onClick={() => setAlertsPanelOpen(false)} />
|
||||
<div className="absolute right-0 top-9 z-50 w-72 rounded-lg border border-border bg-card shadow-xl overflow-hidden">
|
||||
<div className="flex items-center justify-between px-3 py-1.5 border-b border-border/60 bg-muted/30">
|
||||
<span className="text-[11px] font-bold uppercase tracking-wider text-muted-foreground">{t('alert.recent')}</span>
|
||||
{hasAlerts && <button type="button" className="text-[11px] text-muted-foreground hover:text-foreground" onClick={() => setRecentAlerts([])}>{t('alert.clear')}</button>}
|
||||
</div>
|
||||
{!hasAlerts ? (
|
||||
<div className="px-3 py-4 text-center text-xs text-muted-foreground">{t('alert.noneShort')}</div>
|
||||
) : recentAlerts.map((a) => (
|
||||
<button key={a.id} type="button" title={t('alert.tuneHint')}
|
||||
onClick={() => { handleSpotClick({ comment: a.comment, freq_hz: a.freq_hz, band: a.band, dx_call: a.call }); setAlertsPanelOpen(false); }}
|
||||
className="block w-full text-left px-3 py-2 border-b border-border/30 last:border-0 hover:bg-warning/10 transition-colors">
|
||||
<div className="flex items-center gap-1.5">
|
||||
<span className="font-bold text-sm truncate">{a.call}</span>
|
||||
{a.freq_hz > 0 && <span className="ml-auto shrink-0 text-[11px] font-mono tabular-nums text-warning">{(a.freq_hz / 1e6).toFixed(3)}</span>}
|
||||
</div>
|
||||
<div className="text-[11px] text-muted-foreground truncate">
|
||||
{a.rule}{a.band ? ` · ${a.band}` : ''}{a.mode ? ` · ${a.mode}` : ''}{a.country ? ` · ${a.country}` : ''}
|
||||
</div>
|
||||
</button>
|
||||
))}
|
||||
</div>
|
||||
</>
|
||||
)}
|
||||
</div>
|
||||
);
|
||||
// Compact-strip Country (stacked label) + a narrow Comment.
|
||||
const countryBlockSm = (
|
||||
<div className="flex flex-col w-36">
|
||||
@@ -3080,6 +3200,18 @@ export default function App() {
|
||||
onReportRST={(r) => { setRstSent(r); rstUserEditedRef.current = true; }} />
|
||||
</div>
|
||||
);
|
||||
case 'icom':
|
||||
return (
|
||||
<div className="h-full w-full min-h-0 rounded-lg overflow-hidden border border-border">
|
||||
<IcomPanel isNetwork={catBackend === 'icom-net'} onReportRST={(r) => { setRstSent(r); rstUserEditedRef.current = true; }} />
|
||||
</div>
|
||||
);
|
||||
case 'netcontrol':
|
||||
return (
|
||||
<div className="h-full w-full min-h-0 flex flex-col rounded-lg overflow-hidden border border-border">
|
||||
<NetControlPanel onLogged={refresh} countries={countries} bands={bands} modes={modes} />
|
||||
</div>
|
||||
);
|
||||
case 'recent':
|
||||
return (
|
||||
<div className="h-full w-full min-h-0 flex flex-col bg-card border border-border rounded-lg overflow-hidden">
|
||||
@@ -3133,11 +3265,13 @@ export default function App() {
|
||||
</Button>
|
||||
</header>
|
||||
) : (
|
||||
<header className="grid grid-cols-[auto_auto_1fr_auto_auto] items-center gap-4 px-4 h-12 bg-card/95 backdrop-blur border-b border-border shrink-0 shadow-sm">
|
||||
<header className="grid grid-cols-[auto_auto_1fr_auto_auto_auto] items-center gap-4 px-4 h-12 bg-card/95 backdrop-blur border-b border-border shrink-0 shadow-sm">
|
||||
<div className="flex items-center gap-2 pr-2 border-r border-border/60">
|
||||
<div className="size-2.5 rounded-full bg-gradient-to-br from-primary to-orange-400 shadow-[0_0_0_3px_rgba(234,88,12,0.18)]" />
|
||||
<span className="font-bold text-[15px] tracking-tight">OpsLog</span>
|
||||
<span className="text-[11px] text-muted-foreground cursor-pointer hover:text-foreground" onClick={() => setShowAbout(true)} title="About OpsLog">v{APP_VERSION}</span>
|
||||
<div className="flex items-baseline gap-1.5">
|
||||
<span className="font-bold text-[15px] tracking-tight leading-none">OpsLog</span>
|
||||
<span className="text-[11px] text-muted-foreground leading-none cursor-pointer hover:text-foreground" onClick={() => setShowAbout(true)} title="About OpsLog">v{APP_VERSION}</span>
|
||||
</div>
|
||||
</div>
|
||||
|
||||
<Menubar menus={menus} onAction={handleMenu} />
|
||||
@@ -3354,6 +3488,34 @@ export default function App() {
|
||||
)}
|
||||
</div>
|
||||
|
||||
{/* Space-weather / propagation — compact, in the header. Live from N0NBH
|
||||
(hamqsl.com), auto-refreshed hourly; the same SFI / A / K are stamped
|
||||
onto each logged QSO. Always renders one element so the grid columns
|
||||
stay aligned (empty span until the feed loads). */}
|
||||
{solar && solar.ok ? (
|
||||
<div className="flex items-center gap-2.5 font-mono px-2.5 h-8 rounded-md border border-border/60 bg-muted/40 whitespace-nowrap"
|
||||
title={`${t('prop.title')}${solar.updated ? ' · ' + solar.updated : ''}`}>
|
||||
{(() => {
|
||||
const geo = String(solar.geomag_field || '').toUpperCase();
|
||||
const geoCls = /STORM|SEVERE/.test(geo) ? 'text-danger'
|
||||
: /ACTIVE|UNSETTLED/.test(geo) ? 'text-warning' : 'text-success';
|
||||
const it = (label: string, val: any, cls = 'text-foreground') => (
|
||||
<span className="inline-flex items-baseline gap-1">
|
||||
<span className="text-muted-foreground uppercase tracking-wider text-[9px]">{label}</span>
|
||||
<span className={cn('font-bold text-[12px]', cls)}>{(val ?? '') === '' ? '—' : val}</span>
|
||||
</span>
|
||||
);
|
||||
return (<>
|
||||
{it('SFI', solar.sfi)}
|
||||
{it('SSN', solar.ssn)}
|
||||
{it('A', solar.a_index)}
|
||||
{it('K', solar.k_index)}
|
||||
{geo ? <span className={cn('font-bold text-[12px]', geoCls)}>{geo}</span> : null}
|
||||
</>);
|
||||
})()}
|
||||
</div>
|
||||
) : <span />}
|
||||
|
||||
<div className="flex items-center gap-1.5 font-mono text-xs text-muted-foreground px-2.5 py-1 bg-muted rounded-md border border-border/60">
|
||||
<Clock className="size-3" />
|
||||
{utcNow}<span className="text-[10px]">UTC</span>
|
||||
@@ -3567,13 +3729,16 @@ export default function App() {
|
||||
</div>
|
||||
|
||||
{/* Row 2: Name fixed to the Band/Mode/Country column width (300px) so
|
||||
its right edge lines up with that column below; QTH grows to fill. */}
|
||||
<div className="flex gap-2 items-end">
|
||||
its right edge lines up with that column below; QTH grows to fill.
|
||||
gap-4 matches Row 3 so QTH's left edge aligns with Comment/Note. */}
|
||||
<div className="flex gap-4 items-end">
|
||||
<div className="flex flex-col w-[300px] shrink-0"><Label className="mb-1 h-3.5">Name</Label>
|
||||
<Input value={name} onChange={(e) => { setName(e.target.value); markEdited('name'); }} />
|
||||
</div>
|
||||
{qthBlock}
|
||||
{gridBlock}
|
||||
{lotwBlock}
|
||||
{alertLedBlock}
|
||||
</div>
|
||||
|
||||
{/* Row 3: tight left detail column (Band/Mode/Country) and
|
||||
@@ -3667,6 +3832,7 @@ export default function App() {
|
||||
status={agStatus}
|
||||
onActivate={agActivate}
|
||||
onClose={() => { setShowAntGenius(false); writeUiPref('opslog.showAntGenius', '0'); }}
|
||||
band={band}
|
||||
/>
|
||||
</div>
|
||||
)}
|
||||
@@ -4136,7 +4302,7 @@ export default function App() {
|
||||
</TabsContent>
|
||||
|
||||
<TabsContent value="awards" className="flex-1 min-h-0 p-0">
|
||||
<AwardsPanel onEditQSO={openEdit} />
|
||||
<AwardsPanel onEditQSO={openEdit} onAwardsChanged={() => setAwardsVersion((v) => v + 1)} />
|
||||
</TabsContent>
|
||||
|
||||
{contestTabEnabled && (
|
||||
@@ -4158,7 +4324,7 @@ export default function App() {
|
||||
is an Icom. */}
|
||||
{catState.backend === 'icom' && (
|
||||
<TabsContent value="icom" className="flex-1 min-h-0 p-0">
|
||||
<IcomPanel onReportRST={(r) => { setRstSent(r); rstUserEditedRef.current = true; }} />
|
||||
<IcomPanel isNetwork={catBackend === 'icom-net'} onReportRST={(r) => { setRstSent(r); rstUserEditedRef.current = true; }} />
|
||||
</TabsContent>
|
||||
)}
|
||||
|
||||
@@ -4310,11 +4476,16 @@ export default function App() {
|
||||
onClose={() => setShowSpotModal(false)}
|
||||
// Callsign: the QSO-entry call, else the last logged QSO.
|
||||
defaultCall={callsign.trim() || qsos[0]?.callsign || ''}
|
||||
// Freq: the entry TX freq (kHz), else the last logged QSO's.
|
||||
// Freq (0.1 kHz): the LIVE CAT frequency in Hz when connected — NOT the
|
||||
// freqMhz display string, which the manual-edit freeze / field locks can
|
||||
// leave stale (that dropped the sub-kHz: on 14134.5 the frozen "14.134"
|
||||
// string spotted 14134). Fall back to the entry field, then the last QSO.
|
||||
defaultFreqKHz={
|
||||
parseFloat(freqMhz) > 0
|
||||
? Math.round(parseFloat(freqMhz) * 1000 * 10) / 10
|
||||
: (qsos[0]?.freq_hz ? Math.round((qsos[0].freq_hz / 1000) * 10) / 10 : 0)
|
||||
catState.connected && (catState.freq_hz ?? 0) > 0
|
||||
? Math.round(((catState.freq_hz ?? 0) / 1000) * 10) / 10
|
||||
: parseFloat(freqMhz) > 0
|
||||
? Math.round(parseFloat(freqMhz) * 1000 * 10) / 10
|
||||
: (qsos[0]?.freq_hz ? Math.round((qsos[0].freq_hz / 1000) * 10) / 10 : 0)
|
||||
}
|
||||
defaultMode={mode || qsos[0]?.mode || ''}
|
||||
targetName={
|
||||
@@ -4344,6 +4515,7 @@ export default function App() {
|
||||
onSaved={() => { loadStation(); loadLists(); loadCATCfg(); reloadWk(); }}
|
||||
onMainPaneChanged={(side, v) => { if (side === 'left') setMainPaneLeft(v as MainPaneKind); else setMainPaneRight(v as MainPaneKind); }}
|
||||
flexAvailable={catState.backend === 'flex'}
|
||||
icomAvailable={catState.backend === 'icom'}
|
||||
/>
|
||||
)}
|
||||
|
||||
|
||||
@@ -1,14 +1,30 @@
|
||||
import { Antenna, X } from 'lucide-react';
|
||||
import { useState } from 'react';
|
||||
import { Antenna, X, ListFilter } from 'lucide-react';
|
||||
import { cn } from '@/lib/utils';
|
||||
import { useI18n } from '@/lib/i18n';
|
||||
|
||||
export type AGAntenna = { index: number; name: string };
|
||||
export type AGAntenna = { index: number; name: string; bands?: number };
|
||||
export type AGStatus = {
|
||||
connected: boolean; host?: string; last_error?: string;
|
||||
port_a: number; port_b: number; tx_a?: boolean; tx_b?: boolean;
|
||||
antennas: AGAntenna[];
|
||||
};
|
||||
|
||||
// AG_BAND_BITS maps a band name to its bit in the 4O3A Antenna Genius band
|
||||
// bitmask (standard HF+6m order, bit 0 = 160m). Used to show only the antennas
|
||||
// configured for the current band, like the native app. If the mapping ever
|
||||
// proves off on real hardware, the debug log (antgenius: antenna raw …) shows the
|
||||
// device's actual mask so it can be corrected.
|
||||
const AG_BAND_BITS: Record<string, number> = {
|
||||
'160m': 1 << 0, '80m': 1 << 1, '60m': 0, '40m': 1 << 2, '30m': 1 << 3,
|
||||
'20m': 1 << 4, '17m': 1 << 5, '15m': 1 << 6, '12m': 1 << 7, '10m': 1 << 8, '6m': 1 << 9,
|
||||
};
|
||||
|
||||
function bandBit(band?: string): number {
|
||||
if (!band) return 0;
|
||||
return AG_BAND_BITS[band.trim().toLowerCase()] ?? 0;
|
||||
}
|
||||
|
||||
// Format an antenna name: first letter uppercase, the rest lowercase
|
||||
// (e.g. "DX COMMANDER" → "Dx commander").
|
||||
function pretty(name: string): string {
|
||||
@@ -22,13 +38,28 @@ function pretty(name: string): string {
|
||||
// a port-A button (left) and port-B button (right). Colours: green = selected on
|
||||
// port A, blue = selected on port B, red (pulsing) = that port is transmitting.
|
||||
// Clicking an already-selected port deselects it (port → None).
|
||||
export function AntGeniusPanel({ status, onActivate, onClose }: {
|
||||
export function AntGeniusPanel({ status, onActivate, onClose, band }: {
|
||||
status: AGStatus;
|
||||
onActivate: (port: number, antenna: number) => void; // antenna 0 = deselect
|
||||
onClose: () => void;
|
||||
band?: string; // current operating band (e.g. "20m") for the band filter
|
||||
}) {
|
||||
const { t } = useI18n();
|
||||
const list = status.antennas ?? [];
|
||||
const allAntennas = status.antennas ?? [];
|
||||
|
||||
// Band filter (persisted, default ON): show only antennas whose band mask
|
||||
// includes the current band — matching the native 4O3A app. Antennas with an
|
||||
// unknown mask (0) always show, and if the filter would hide EVERYTHING (e.g. a
|
||||
// band we can't map, or masks the device didn't send) we fall back to the full
|
||||
// list so the panel is never mysteriously empty.
|
||||
const [bandFilter, setBandFilter] = useState(() => localStorage.getItem('opslog.agBandFilter') !== '0');
|
||||
const toggleBandFilter = () => setBandFilter((v) => { const n = !v; localStorage.setItem('opslog.agBandFilter', n ? '1' : '0'); return n; });
|
||||
const bit = bandBit(band);
|
||||
let list = allAntennas;
|
||||
if (bandFilter && bit !== 0) {
|
||||
const filtered = allAntennas.filter((a) => !a.bands || (a.bands & bit) !== 0);
|
||||
if (filtered.length > 0) list = filtered;
|
||||
}
|
||||
|
||||
const PortBtn = ({ port, index, active, tx }: { port: 1 | 2; index: number; active: boolean; tx: boolean }) => {
|
||||
const letter = port === 1 ? 'A' : 'B';
|
||||
@@ -57,6 +88,11 @@ export function AntGeniusPanel({ status, onActivate, onClose }: {
|
||||
<Antenna className={cn('size-4', status.connected ? 'text-success drop-shadow-[0_0_3px_rgba(16,185,129,0.55)]' : 'text-muted-foreground')} />
|
||||
<span className="text-xs font-bold uppercase tracking-[0.18em] text-foreground/80">Antenna Genius</span>
|
||||
<span className="flex-1" />
|
||||
<button type="button" onClick={toggleBandFilter}
|
||||
title={bandFilter ? t('agp.filterOnHint', { band: band || '' }) : t('agp.filterOffHint')}
|
||||
className={cn('transition-colors', bandFilter ? 'text-primary' : 'text-muted-foreground/50 hover:text-muted-foreground')}>
|
||||
<ListFilter className="size-3.5" />
|
||||
</button>
|
||||
<span className="inline-flex items-center gap-1.5 text-[10px] font-mono uppercase tracking-wider">
|
||||
<span className={cn('size-1.5 rounded-full', status.connected ? 'bg-success shadow-[0_0_6px_rgba(16,185,129,0.8)] animate-pulse' : 'bg-danger')} />
|
||||
<span className={status.connected ? 'text-success' : 'text-danger'}>{status.connected ? t('agp.online') : t('agp.offline')}</span>
|
||||
|
||||
@@ -30,6 +30,7 @@ type RefMeta = { code: string; count: number; updated_at: string; can_update: bo
|
||||
export type AwardDef = {
|
||||
code: string; name: string; description?: string; valid?: boolean; protected?: boolean;
|
||||
url?: string; download_url?: string; ref_url?: string; valid_from?: string; valid_to?: string; alias?: string;
|
||||
ref_display?: string; // grid column shows: ref | name | both
|
||||
type?: string; field: string; match_by?: string; exact_match?: boolean; pattern: string;
|
||||
leading_str?: string; trailing_str?: string; multi?: boolean; dynamic?: boolean; add_prefixes?: string[];
|
||||
or_rules?: AwardOrRule[];
|
||||
@@ -301,6 +302,16 @@ export function AwardEditor({ open, onClose, onSaved }: Props) {
|
||||
<Field2 label={t('awed.description')}><Input className="h-8" value={cur.description ?? ''} onChange={(e) => patch({ description: e.target.value })} /></Field2>
|
||||
<Field2 label={t('awed.awardUrl')}><Input className="h-8" value={cur.url ?? ''} onChange={(e) => patch({ url: e.target.value })} /></Field2>
|
||||
<Field2 label={t('awed.referenceUrl')}><Input className="h-8" value={cur.ref_url ?? ''} onChange={(e) => patch({ ref_url: e.target.value })} placeholder="https://…/<REF>" /></Field2>
|
||||
<Field2 label={t('awed.refDisplay')}>
|
||||
<Select value={cur.ref_display || 'ref'} onValueChange={(v) => patch({ ref_display: v })}>
|
||||
<SelectTrigger className="h-8 text-xs w-48"><SelectValue /></SelectTrigger>
|
||||
<SelectContent>
|
||||
<SelectItem value="ref">{t('awed.refDisplayRef')}</SelectItem>
|
||||
<SelectItem value="name">{t('awed.refDisplayName')}</SelectItem>
|
||||
<SelectItem value="both">{t('awed.refDisplayBoth')}</SelectItem>
|
||||
</SelectContent>
|
||||
</Select>
|
||||
</Field2>
|
||||
<div className="grid grid-cols-2 gap-3">
|
||||
<Field2 label={t('awed.validFrom')}><Input type="date" className="h-8" value={cur.valid_from ?? ''} onChange={(e) => patch({ valid_from: e.target.value })} /></Field2>
|
||||
<Field2 label={t('awed.validTo')}><Input type="date" className="h-8" value={cur.valid_to ?? ''} onChange={(e) => patch({ valid_to: e.target.value })} /></Field2>
|
||||
@@ -354,8 +365,10 @@ export function AwardEditor({ open, onClose, onSaved }: Props) {
|
||||
<Field2 label={t('awed.trailingString')}><Input className="h-8 font-mono text-xs" value={cur.trailing_str ?? ''} onChange={(e) => patch({ trailing_str: e.target.value })} /></Field2>
|
||||
</div>
|
||||
|
||||
{/* Additional OR searches: a QSO earns a reference if the
|
||||
primary rule OR any of these match. */}
|
||||
{/* Fallback searches: tried in order, only while nothing
|
||||
has matched yet — the first that hits wins (short-circuit),
|
||||
so a value already resolved by the primary rule isn't
|
||||
re-derived differently by a later one. */}
|
||||
<div className="border-t pt-2.5 space-y-2">
|
||||
<div className="flex items-center justify-between">
|
||||
<p className="text-[11px] text-muted-foreground">{t('awed.additionalSearches')} <span className="font-semibold">(OR)</span> {t('awed.orAlsoMatch')}</p>
|
||||
|
||||
@@ -61,7 +61,7 @@ function ProgressBar({ worked, confirmed, total }: { worked: number; confirmed:
|
||||
|
||||
type AwardListItem = { code: string; name: string; valid?: boolean; bands?: string[]; emission?: string[] };
|
||||
|
||||
export function AwardsPanel({ onEditQSO }: { onEditQSO?: (id: number) => void } = {}) {
|
||||
export function AwardsPanel({ onEditQSO, onAwardsChanged }: { onEditQSO?: (id: number) => void; onAwardsChanged?: () => void } = {}) {
|
||||
const { t } = useI18n();
|
||||
const [awardList, setAwardList] = useState<AwardListItem[]>([]);
|
||||
// Computed results are cached per award code — each award is scanned only the
|
||||
@@ -220,7 +220,7 @@ export function AwardsPanel({ onEditQSO }: { onEditQSO?: (id: number) => void }
|
||||
{t('awp.rescan')}
|
||||
</Button>
|
||||
</div>
|
||||
<AwardEditor open={editing} onClose={() => setEditing(false)} onSaved={() => { setByCode({}); loadList(); }} />
|
||||
<AwardEditor open={editing} onClose={() => setEditing(false)} onSaved={() => { setByCode({}); loadList(); onAwardsChanged?.(); }} />
|
||||
{/* Quick selector — scales when there are many awards. */}
|
||||
{awardList.length > 0 && (
|
||||
<div className="px-2 py-2 border-b border-border/40">
|
||||
|
||||
@@ -49,6 +49,24 @@ const FIELDS: FieldDef[] = [
|
||||
{ id: 'my_wwff_ref', label: 'bulk.fMyWwff', group: 'My station', kind: 'text', upper: true },
|
||||
{ id: 'my_sig', label: 'bulk.fMySig', group: 'My station', kind: 'text' },
|
||||
{ id: 'my_sig_info', label: 'bulk.fMySigInfo', group: 'My station', kind: 'text' },
|
||||
// Contest
|
||||
{ id: 'contest_id', label: 'bulk.fContestId', group: 'Contest', kind: 'text', upper: true },
|
||||
{ id: 'srx_string', label: 'bulk.fSrxString', group: 'Contest', kind: 'text' },
|
||||
{ id: 'stx_string', label: 'bulk.fStxString', group: 'Contest', kind: 'text' },
|
||||
{ id: 'arrl_sect', label: 'bulk.fArrlSect', group: 'Contest', kind: 'text', upper: true },
|
||||
{ id: 'precedence', label: 'bulk.fPrecedence', group: 'Contest', kind: 'text', upper: true },
|
||||
{ id: 'class', label: 'bulk.fClass', group: 'Contest', kind: 'text', upper: true },
|
||||
// Propagation / satellite
|
||||
{ id: 'prop_mode', label: 'bulk.fPropMode', group: 'Propagation', kind: 'text', upper: true },
|
||||
{ id: 'sat_name', label: 'bulk.fSatName', group: 'Propagation', kind: 'text', upper: true },
|
||||
{ id: 'sat_mode', label: 'bulk.fSatMode', group: 'Propagation', kind: 'text', upper: true },
|
||||
// Contacted station (activation refs / SIG)
|
||||
{ id: 'pota_ref', label: 'bulk.fPotaRef', group: 'Contacted station', kind: 'text', upper: true },
|
||||
{ id: 'sota_ref', label: 'bulk.fSotaRef', group: 'Contacted station', kind: 'text', upper: true },
|
||||
{ id: 'wwff_ref', label: 'bulk.fWwffRef', group: 'Contacted station', kind: 'text', upper: true },
|
||||
{ id: 'iota', label: 'bulk.fIota', group: 'Contacted station', kind: 'text', upper: true },
|
||||
{ id: 'sig', label: 'bulk.fSig', group: 'Contacted station', kind: 'text' },
|
||||
{ id: 'sig_info', label: 'bulk.fSigInfo', group: 'Contacted station', kind: 'text' },
|
||||
// Misc
|
||||
{ id: 'comment', label: 'bulk.fComment', group: 'Misc', kind: 'text' },
|
||||
{ id: 'notes', label: 'bulk.fNotes', group: 'Misc', kind: 'text' },
|
||||
@@ -65,11 +83,14 @@ const STATUS_VALUES: { v: string; label: string }[] = [
|
||||
{ v: '_', label: 'bulk.statusBlank' },
|
||||
];
|
||||
|
||||
const GROUPS = ['QSL / upload', 'My station', 'Misc'];
|
||||
const GROUPS = ['QSL / upload', 'My station', 'Contacted station', 'Contest', 'Propagation', 'Misc'];
|
||||
// Maps the internal group key → its i18n label key.
|
||||
const GROUP_LABELS: Record<string, string> = {
|
||||
'QSL / upload': 'bulk.groupQsl',
|
||||
'My station': 'bulk.groupMyStation',
|
||||
'Contacted station': 'bulk.groupContacted',
|
||||
'Contest': 'bulk.groupContest',
|
||||
'Propagation': 'bulk.groupPropagation',
|
||||
'Misc': 'bulk.groupMisc',
|
||||
};
|
||||
|
||||
@@ -130,9 +151,12 @@ export function BulkEditModal({ open, ids, onClose, onApplied }: Props) {
|
||||
{GROUPS.map((g) => (
|
||||
<div key={g}>
|
||||
<div className="px-2 py-1 text-[10px] uppercase tracking-wider text-muted-foreground">{t(GROUP_LABELS[g])}</div>
|
||||
{FIELDS.filter((f) => f.group === g).map((f) => (
|
||||
<SelectItem key={f.id} value={f.id}>{t(f.label)}</SelectItem>
|
||||
))}
|
||||
{FIELDS.filter((f) => f.group === g)
|
||||
.map((f) => ({ f, txt: t(f.label) }))
|
||||
.sort((a, b) => a.txt.localeCompare(b.txt))
|
||||
.map(({ f, txt }) => (
|
||||
<SelectItem key={f.id} value={f.id}>{txt}</SelectItem>
|
||||
))}
|
||||
</div>
|
||||
))}
|
||||
</SelectContent>
|
||||
|
||||
@@ -124,11 +124,16 @@ const makeColCatalog = (t: TFn): ColEntry[] => [
|
||||
headerName: t('clg2.c.call'), field: 'dx_call' as any, width: 120,
|
||||
defaultVisible: true,
|
||||
cellClass: 'font-mono',
|
||||
// New DXCC entity → fill the whole cell (no padded pill, so calls stay
|
||||
// aligned with non-new rows). Text colour also flags worked-call vs new-call.
|
||||
cellStyle: (p: any): any => (statusFor(p)?.status === 'new'
|
||||
? { backgroundColor: '#ffe4e6', color: '#be123c', fontWeight: 700 }
|
||||
: { color: statusFor(p)?.worked_call ? '#0369a1' : '#b8410c', fontWeight: 700 }),
|
||||
// Only STATUS calls get a colour: new DXCC entity → filled cell (no padded
|
||||
// pill, so calls stay aligned), worked-call → blue. A plain spot inherits the
|
||||
// theme's normal text colour (var(--foreground)) so callsigns blend in with
|
||||
// the rest of the row across every theme instead of always shouting orange.
|
||||
cellStyle: (p: any): any => {
|
||||
const s = statusFor(p);
|
||||
if (s?.status === 'new') return { backgroundColor: '#ffe4e6', color: '#be123c', fontWeight: 700 };
|
||||
if (s?.worked_call) return { color: '#0369a1', fontWeight: 700 };
|
||||
return { fontWeight: 700 };
|
||||
},
|
||||
tooltipValueGetter: (p: any) => {
|
||||
const s = statusFor(p);
|
||||
return s?.status === 'new' ? t('clg2.tipNewDxcc', { country: s?.country ?? '' }) : s?.worked_call ? t('clg2.tipWorkedCall') : undefined;
|
||||
|
||||
@@ -1,4 +1,4 @@
|
||||
import { useEffect, useState } from 'react';
|
||||
import { useEffect, useMemo, useState } from 'react';
|
||||
import { Plus, Trash2, Save, FolderOpen, X } from 'lucide-react';
|
||||
import { writeUiPref } from '@/lib/uiPref';
|
||||
import { Dialog, DialogContent, DialogHeader, DialogTitle, DialogFooter } from '@/components/ui/dialog';
|
||||
@@ -134,6 +134,12 @@ interface Props {
|
||||
|
||||
export function FilterBuilder({ open, initial, onApply, onClose }: Props) {
|
||||
const { t } = useI18n();
|
||||
// Field dropdown sorted alphabetically by translated label (the FIELDS array is
|
||||
// grouped by category for maintenance; the operator wants it A→Z to find things).
|
||||
const sortedFields = useMemo(
|
||||
() => FIELDS.map((f) => ({ f, txt: t(f.label) })).sort((a, b) => a.txt.localeCompare(b.txt)),
|
||||
[t],
|
||||
);
|
||||
const [conditions, setConditions] = useState<FilterCondition[]>([]);
|
||||
const [match, setMatch] = useState<'AND' | 'OR'>('AND');
|
||||
const [presets, setPresets] = useState<Record<string, QueryFilter>>({});
|
||||
@@ -237,7 +243,7 @@ export function FilterBuilder({ open, initial, onApply, onClose }: Props) {
|
||||
}}>
|
||||
<SelectTrigger className="h-8 w-48 text-xs"><SelectValue /></SelectTrigger>
|
||||
<SelectContent className="max-h-72">
|
||||
{FIELDS.map((f) => <SelectItem key={f.value} value={f.value}>{t(f.label)}</SelectItem>)}
|
||||
{sortedFields.map(({ f, txt }) => <SelectItem key={f.value} value={f.value}>{txt}</SelectItem>)}
|
||||
</SelectContent>
|
||||
</Select>
|
||||
<Select value={c.op} onValueChange={(v) => setCond(i, { op: v as FilterOp })}>
|
||||
|
||||
@@ -4,7 +4,7 @@ import { Button } from '@/components/ui/button';
|
||||
import { Input } from '@/components/ui/input';
|
||||
import { Label } from '@/components/ui/label';
|
||||
import { cn } from '@/lib/utils';
|
||||
import { useI18n } from '@/lib/i18n';
|
||||
import { useI18n, FlagGB, FlagFR, type Lang } from '@/lib/i18n';
|
||||
import { GetActiveProfile, SaveProfile, DownloadAllReferenceLists } from '../../wailsjs/go/main/App';
|
||||
import type { profile as profileModels } from '../../wailsjs/go/models';
|
||||
|
||||
@@ -14,7 +14,7 @@ type Profile = Omit<profileModels.Profile, 'convertValues'>;
|
||||
// (no callsign configured yet). It writes straight into the active profile, so
|
||||
// OpsLog has a valid station before any QSO is logged. Not dismissable.
|
||||
export function FirstRunModal({ onDone }: { onDone: () => void }) {
|
||||
const { t } = useI18n();
|
||||
const { t, lang, setLang } = useI18n();
|
||||
const [p, setP] = useState<Profile | null>(null);
|
||||
const [saving, setSaving] = useState(false);
|
||||
const [err, setErr] = useState('');
|
||||
@@ -68,6 +68,22 @@ export function FirstRunModal({ onDone }: { onDone: () => void }) {
|
||||
return (
|
||||
<div className="fixed inset-0 z-[200] flex items-center justify-center bg-black/40 backdrop-blur-sm">
|
||||
<div className="w-full max-w-md rounded-xl border border-border bg-card shadow-2xl p-6 animate-in fade-in zoom-in-95">
|
||||
{/* Language chooser — lives here (and not only in the localStorage-backed
|
||||
first-launch flag gate) so a fresh setup always offers EN/FR, like the
|
||||
station identity below. */}
|
||||
<div className="flex justify-center mb-4">
|
||||
<div className="inline-flex rounded-md border border-border overflow-hidden">
|
||||
{([['en', FlagGB, 'English'], ['fr', FlagFR, 'Français']] as [Lang, typeof FlagGB, string][]).map(([code, Flag, label]) => (
|
||||
<button key={code} type="button" onClick={() => setLang(code)}
|
||||
className={cn('flex items-center gap-2 px-3 py-1.5 text-sm font-medium border-l border-border first:border-l-0 transition-colors',
|
||||
lang === code ? 'bg-primary text-primary-foreground' : 'bg-card text-muted-foreground hover:bg-muted')}>
|
||||
<Flag className="w-5 rounded-[2px] border border-border/30" />
|
||||
{label}
|
||||
</button>
|
||||
))}
|
||||
</div>
|
||||
</div>
|
||||
|
||||
<div className="flex items-center gap-2 mb-1">
|
||||
<Radio className="size-5 text-primary" />
|
||||
<h2 className="text-lg font-semibold">{t('frm.welcome')}</h2>
|
||||
|
||||
@@ -5,8 +5,9 @@ import {
|
||||
FlexSetProcessor, FlexSetProcessorLevel, FlexSetMon, FlexSetMonLevel, FlexSetMic,
|
||||
FlexMox, FlexAmpOperate,
|
||||
GetPGXLStatus, PGXLSetFanMode,
|
||||
FlexSetAGCMode, FlexSetAGCThreshold, FlexSetAudioLevel, FlexSetMute, FlexSetRXAntenna, FlexSetTXAntenna, FlexSetSplit,
|
||||
FlexSetAGCMode, FlexSetAGCThreshold, FlexSetAudioLevel, FlexSetMute, FlexSetRXAntenna, FlexSetTXAntenna, FlexSetSplit, FlexSetActiveSlice, FlexSetTXSlice,
|
||||
FlexSetNB, FlexSetNBLevel, FlexSetNR, FlexSetNRLevel, FlexSetANF, FlexSetANFLevel,
|
||||
FlexSetWNB, FlexSetWNBLevel, FlexSetTXFilter, FlexSetMicProfile,
|
||||
FlexSetAPF, FlexSetAPFLevel, FlexSetCWSpeed, FlexSetCWPitch, FlexSetCWBreakInDelay,
|
||||
FlexSetCWSidetone, FlexSetSidetoneLevel, FlexSetCWFilter, FlexSetFilter,
|
||||
} from '../../wailsjs/go/main/App';
|
||||
@@ -25,14 +26,18 @@ type FlexState = {
|
||||
rx_ant?: string; tx_ant?: string; ant_list?: string[]; tx_ant_list?: string[];
|
||||
split: boolean; rx_freq_hz?: number; tx_freq_hz?: number;
|
||||
nb: boolean; nb_level: number; nr: boolean; nr_level: number; anf: boolean; anf_level: number;
|
||||
wnb: boolean; wnb_level: number;
|
||||
tx_filter_low: number; tx_filter_high: number; mic_profile?: string; mic_profiles?: string[];
|
||||
mode?: string;
|
||||
cw_speed: number; cw_pitch: number; cw_break_in_delay: number; cw_sidetone: boolean; cw_mon_level: number;
|
||||
apf: boolean; apf_level: number; filter_lo: number; filter_hi: number;
|
||||
amp_available: boolean; amp_model?: string; amp_operate: boolean; amp_fault?: string;
|
||||
meters?: Meter[];
|
||||
slices?: FlexSlice[];
|
||||
};
|
||||
|
||||
type Meter = { id: number; src?: string; name?: string; unit?: string; value: number; lo: number; hi: number };
|
||||
type FlexSlice = { index: number; letter: string; freq_hz: number; mode?: string; band?: string; active: boolean; tx: boolean };
|
||||
type Meter = { id: number; src?: string; name?: string; unit?: string; slice?: number; value: number; lo: number; hi: number };
|
||||
|
||||
const ZERO: FlexState = {
|
||||
available: false, rf_power: 0, tune_power: 0, tune: false, transmitting: false,
|
||||
@@ -40,6 +45,7 @@ const ZERO: FlexState = {
|
||||
mon: false, mon_level: 0, mic_level: 0, atu_memories: false,
|
||||
rx_avail: false, agc_threshold: 0, audio_level: 0, mute: false, split: false,
|
||||
nb: false, nb_level: 0, nr: false, nr_level: 0, anf: false, anf_level: 0,
|
||||
wnb: false, wnb_level: 0, tx_filter_low: 0, tx_filter_high: 0,
|
||||
cw_speed: 25, cw_pitch: 600, cw_break_in_delay: 30, cw_sidetone: true, cw_mon_level: 0,
|
||||
apf: false, apf_level: 0, filter_lo: 0, filter_hi: 0,
|
||||
amp_available: false, amp_operate: false,
|
||||
@@ -141,27 +147,28 @@ function LevelRow({ label, on, onToggle, value, onLevel, disabled, accent, slide
|
||||
// `display` overrides the numeric readout; `segColor` colours segments by their
|
||||
// 0..1 position (zones); the top ~18% light red by default (overload/peak).
|
||||
const METER_SEGMENTS = 26;
|
||||
function MeterBar({ label, value, unit, lo, hi, accent = '#16a34a', extra, display, segColor, onClick, title }: {
|
||||
function MeterBar({ label, value, unit, lo, hi, accent = '#16a34a', extra, display, segColor, onClick, title, compact }: {
|
||||
label: string; value: number; unit?: string; lo: number; hi: number; accent?: string; extra?: string; display?: string;
|
||||
segColor?: (frac: number) => string; onClick?: () => void; title?: string;
|
||||
segColor?: (frac: number) => string; onClick?: () => void; title?: string; compact?: boolean;
|
||||
}) {
|
||||
const span = hi - lo;
|
||||
const pct = span > 0 ? Math.max(0, Math.min(100, ((value - lo) / span) * 100)) : 0;
|
||||
const lit = Math.round((pct / 100) * METER_SEGMENTS);
|
||||
return (
|
||||
<div onClick={onClick} title={title}
|
||||
className={cn('rounded-lg border border-border/70 px-2.5 py-2 bg-gradient-to-b from-card to-muted/40 shadow-sm min-w-0',
|
||||
className={cn('rounded-lg border border-border/70 bg-gradient-to-b from-card to-muted/40 shadow-sm min-w-0',
|
||||
compact ? 'px-2 py-1' : 'px-2.5 py-2',
|
||||
onClick && 'cursor-pointer hover:border-primary/60 hover:from-muted/40')}>
|
||||
<div className="flex items-baseline justify-between gap-1 mb-1.5">
|
||||
<div className={cn('flex items-baseline justify-between gap-1', compact ? 'mb-1' : 'mb-1.5')}>
|
||||
<span className="text-[10px] font-bold uppercase tracking-wider text-muted-foreground truncate">{label}</span>
|
||||
<span className="text-sm font-mono font-bold tabular-nums whitespace-nowrap text-foreground/90">
|
||||
<span className={cn('font-mono font-bold tabular-nums whitespace-nowrap text-foreground/90', compact ? 'text-xs' : 'text-sm')}>
|
||||
{display !== undefined ? display : (
|
||||
<>{Math.abs(value) >= 100 ? value.toFixed(0) : value.toFixed(1)}<span className="text-muted-foreground text-[10px] ml-0.5">{unit}</span></>
|
||||
)}
|
||||
</span>
|
||||
</div>
|
||||
{/* LED bar — recessed track + gradient segments for a cleaner instrument look. */}
|
||||
<div className="flex gap-[2px] h-3 items-stretch rounded-[3px] bg-black/10 p-[2px]">
|
||||
<div className={cn('flex gap-[2px] items-stretch rounded-[3px] bg-black/10 p-[2px]', compact ? 'h-2' : 'h-3')}>
|
||||
{Array.from({ length: METER_SEGMENTS }).map((_, i) => {
|
||||
const on = i < lit;
|
||||
const frac = i / METER_SEGMENTS;
|
||||
@@ -174,7 +181,7 @@ function MeterBar({ label, value, unit, lo, hi, accent = '#16a34a', extra, displ
|
||||
);
|
||||
})}
|
||||
</div>
|
||||
{extra && <div className="text-[10px] text-muted-foreground/70 mt-1 text-right font-mono">{extra}</div>}
|
||||
{extra && !compact && <div className="text-[10px] text-muted-foreground/70 mt-1 text-right font-mono">{extra}</div>}
|
||||
</div>
|
||||
);
|
||||
}
|
||||
@@ -260,6 +267,13 @@ export function FlexPanel({ onCWSpeed, onReportRST }: { onCWSpeed?: (wpm: number
|
||||
? SSB_BW.reduce((best, bw) => (Math.abs(bw - curBW) < Math.abs(best - curBW) ? bw : best), SSB_BW[0])
|
||||
: -1;
|
||||
|
||||
// Compact header readouts for PA voltage + temperature (numbers, not bars) — the
|
||||
// user wanted these in the header to save vertical space in the Meters card.
|
||||
const hdrMeters = st.meters || [];
|
||||
const hdrFind = (name: string) => hdrMeters.find((m) => (m.name || '').toUpperCase().includes(name) && !(m.src || '').toUpperCase().includes('AMP'));
|
||||
const voltM = hdrFind('13.8') || hdrFind('VOLT');
|
||||
const patempM = hdrFind('PATEMP') || hdrFind('PA TEMP');
|
||||
|
||||
return (
|
||||
<div className="h-full min-h-0 overflow-auto bg-background">
|
||||
<div className="max-w-5xl mx-auto p-3 space-y-3">
|
||||
@@ -272,6 +286,23 @@ export function FlexPanel({ onCWSpeed, onReportRST }: { onCWSpeed?: (wpm: number
|
||||
<span className="text-[11px] text-slate-400">{t('flxp.smartsdrRemote')}</span>
|
||||
</div>
|
||||
<div className="flex-1" />
|
||||
{/* Compact PA voltage + temperature readouts (numbers) to save space. */}
|
||||
{!off && (voltM || patempM) && (
|
||||
<div className="flex items-center gap-4 mr-1 font-mono tabular-nums">
|
||||
{voltM && (
|
||||
<span className="flex flex-col items-end leading-none">
|
||||
<span className="text-[9px] uppercase tracking-wider text-slate-400 font-sans">{t('flxp.voltage')}</span>
|
||||
<span className="text-sm font-bold">{voltM.value.toFixed(1)}<span className="text-[9px] text-slate-400 ml-0.5">V</span></span>
|
||||
</span>
|
||||
)}
|
||||
{patempM && (
|
||||
<span className="flex flex-col items-end leading-none">
|
||||
<span className="text-[9px] uppercase tracking-wider text-slate-400 font-sans">{t('flxp.paTemp')}</span>
|
||||
<span className={cn('text-sm font-bold', patempM.value >= 70 ? 'text-red-400' : patempM.value >= 55 ? 'text-amber-400' : 'text-slate-100')}>{patempM.value.toFixed(0)}<span className="text-[9px] text-slate-400 ml-0.5">°C</span></span>
|
||||
</span>
|
||||
)}
|
||||
</div>
|
||||
)}
|
||||
<span className={cn('inline-flex items-center gap-1.5 px-3 py-1.5 rounded-lg text-sm font-extrabold tracking-wider',
|
||||
!st.available ? 'bg-muted text-muted-foreground'
|
||||
: st.transmitting ? 'bg-danger text-danger-foreground shadow-[0_0_16px] shadow-danger/60' : 'bg-success text-success-foreground')}>
|
||||
@@ -280,6 +311,99 @@ export function FlexPanel({ onCWSpeed, onReportRST }: { onCWSpeed?: (wpm: number
|
||||
</span>
|
||||
</div>
|
||||
|
||||
{/* Slices A/B/C/D — every in-use receiver. Click one to make it the
|
||||
ACTIVE slice: the main frequency, mode, DSP and spot-clicks all follow
|
||||
it. The active slice is highlighted; the TX slice is flagged. */}
|
||||
{!!st.slices && st.slices.length > 0 && (
|
||||
<div className="flex flex-wrap items-center gap-2">
|
||||
{st.slices.map((sl) => (
|
||||
<button key={sl.index} type="button" disabled={off}
|
||||
onClick={() => FlexSetActiveSlice(sl.index).catch(() => {})}
|
||||
title={t('flxp.sliceHint')}
|
||||
className={cn('flex items-center gap-2 rounded-lg border px-3 py-1.5 transition-colors disabled:opacity-40',
|
||||
sl.active ? 'border-info bg-info/10 ring-1 ring-info' : 'border-border bg-card hover:bg-muted')}>
|
||||
<span className={cn('inline-flex size-6 items-center justify-center rounded-md text-sm font-extrabold',
|
||||
sl.active ? 'bg-info text-info-foreground' : 'bg-muted text-muted-foreground')}>{sl.letter}</span>
|
||||
<span className="flex items-baseline gap-1.5">
|
||||
<span className="font-mono font-bold tabular-nums text-sm leading-none">{(sl.freq_hz / 1e6).toFixed(3)}</span>
|
||||
<span className="text-[11px] text-muted-foreground uppercase leading-none">{sl.mode}</span>
|
||||
{sl.band ? <span className="text-[10px] text-muted-foreground leading-none">{sl.band}</span> : null}
|
||||
</span>
|
||||
{/* TX badge — click a non-TX slice's badge to move TX onto it
|
||||
(e.g. transmit on the active slice). stopPropagation so it
|
||||
doesn't also fire the outer "make active" click. */}
|
||||
<span role="button" tabIndex={-1}
|
||||
onClick={(e) => { e.stopPropagation(); if (!sl.tx && !off) FlexSetTXSlice(sl.index).catch(() => {}); }}
|
||||
title={sl.tx ? t('flxp.txSlice') : t('flxp.setTxSlice')}
|
||||
className={cn('rounded text-[10px] font-bold px-1',
|
||||
sl.tx ? 'bg-danger text-danger-foreground' : 'border border-danger/50 text-danger cursor-pointer hover:bg-danger/10')}>
|
||||
TX
|
||||
</span>
|
||||
</button>
|
||||
))}
|
||||
</div>
|
||||
)}
|
||||
|
||||
{/* Live meters (UDP VITA-49 stream) — placed right under the slices. */}
|
||||
<Card icon={Gauge} title={t('flxp.meters')}>
|
||||
{(() => {
|
||||
const meters = st.meters || [];
|
||||
if (off || meters.length === 0) {
|
||||
return <p className="text-[11px] text-muted-foreground text-center py-2">{t('flxp.noMeters')}</p>;
|
||||
}
|
||||
const isDbm = (m?: Meter) => !!m && /dbm/i.test(m.unit || '');
|
||||
const dbmToW = (d: number) => Math.pow(10, (d - 30) / 10);
|
||||
// Radio meters (exclude the amplifier's, which we show separately).
|
||||
const radio = (name: string) => meters.find((m) =>
|
||||
(m.name || '').toUpperCase().includes(name) && !(m.src || '').toUpperCase().includes('AMP'));
|
||||
// Per-slice (SLC) meters — S-meter — exist once PER SLICE, so pick the
|
||||
// one for the ACTIVE slice; otherwise we'd always show slice A's level.
|
||||
const activeSlice = (st.slices || []).find((s) => s.active)?.index ?? -1;
|
||||
const sliceMeter = (name: string) => {
|
||||
const m = meters.filter((x) => (x.name || '').toUpperCase().includes(name) && !(x.src || '').toUpperCase().includes('AMP'));
|
||||
if (m.length === 0) return undefined;
|
||||
return m.find((x) => (x.src || '').toUpperCase().includes('SLC') && x.slice === activeSlice) || m[0];
|
||||
};
|
||||
const sig = sliceMeter('LEVEL') || sliceMeter('SIGNAL');
|
||||
const fwd = radio('FWDPWR');
|
||||
const swr = radio('SWR');
|
||||
// Mic input level + speech-compression (voltage & PA temp live in the
|
||||
// header now). All already in the meter stream.
|
||||
const mic = meters.find((m) => /MIC/i.test(m.name || '') && !(m.src || '').toUpperCase().includes('AMP'));
|
||||
const comp = radio('COMPPEAK') || radio('COMP');
|
||||
// S-meter: dBm → S-units (S9 = -73 dBm on HF, 6 dB per unit).
|
||||
const sUnit = (dbm: number) => {
|
||||
const sv = (dbm + 127) / 6; // S0 = -127 dBm
|
||||
if (sv >= 9) {
|
||||
const over = Math.max(0, Math.round(dbm + 73)); // dB over S9
|
||||
return { display: over > 0 ? `S9+${over}` : 'S9', bar: sv, s: 9, over };
|
||||
}
|
||||
return { display: `S${Math.max(0, Math.round(sv))}`, bar: Math.max(0, sv), s: Math.max(0, sv), over: 0 };
|
||||
};
|
||||
const cur = [
|
||||
sig && (() => { const dbm = peakHold('s', sig.value); const s = sUnit(dbm); return (
|
||||
<MeterBar key="s" label="S-METER" value={s.bar} lo={0} hi={19} accent="#16a34a" display={s.display} extra={`${dbm.toFixed(1)} dBm`}
|
||||
title={onReportRST ? t('rst.clickToFill') : undefined}
|
||||
onClick={onReportRST ? () => onReportRST(sMeterRST(s.s, s.over, st.mode)) : undefined}
|
||||
segColor={(fr) => { const sval = fr * 19; return sval < 9 ? '#16a34a' : sval < 12.33 ? '#f59e0b' : '#dc2626'; }} />
|
||||
); })(),
|
||||
fwd && (() => { const w = peakHold('p', isDbm(fwd) ? dbmToW(fwd.value) : fwd.value); return (
|
||||
<MeterBar key="p" label="PWR" unit="W" lo={0} hi={120} accent="#dc2626"
|
||||
value={w} extra={isDbm(fwd) ? `${fwd.value.toFixed(1)} dBm` : undefined} />
|
||||
); })(),
|
||||
swr && <MeterBar key="w" label="SWR" value={peakHold('w', swr.value)} unit="" lo={1} hi={3} accent="#d97706" />,
|
||||
// Mic input level: fixed -40..+10 dB scale, RED from 0 dB up (overdrive).
|
||||
mic && <MeterBar key="mic" label="MIC" value={peakHold('mic', mic.value)} unit={mic.unit || 'dB'} lo={-40} hi={10} accent="#16a34a"
|
||||
segColor={(fr) => (fr >= 0.8 ? '#dc2626' : fr >= 0.7 ? '#f59e0b' : '#16a34a')} />,
|
||||
// Speech compression (dB of gain reduction).
|
||||
comp && <MeterBar key="comp" label="COMP" value={peakHold('comp', comp.value)} unit={comp.unit || 'dB'} lo={0} hi={(comp.hi && comp.hi > 0) ? comp.hi : 25} accent="#0891b2" />,
|
||||
].filter(Boolean);
|
||||
return (
|
||||
<div className="grid grid-cols-2 sm:grid-cols-3 gap-2">{cur}</div>
|
||||
);
|
||||
})()}
|
||||
</Card>
|
||||
|
||||
{off && (
|
||||
<div className="text-center text-sm text-muted-foreground py-6">
|
||||
{t('flxp.waiting')}
|
||||
@@ -356,6 +480,39 @@ export function FlexPanel({ onCWSpeed, onReportRST }: { onCWSpeed?: (wpm: number
|
||||
<Slider value={st.mic_level} disabled={off} accent="#2563eb" onChange={(v) => change('mic_level', v, () => FlexSetMic(v))} />
|
||||
<span className="w-8 text-right text-xs font-mono tabular-nums text-muted-foreground">{st.mic_level}</span>
|
||||
</div>
|
||||
{/* TX audio bandwidth — low/high cut (Hz). Typed locally, committed on
|
||||
blur/Enter so we don't spam a command per keystroke; the hold guard
|
||||
keeps the poll from clobbering the field mid-edit. */}
|
||||
<div className="flex items-center gap-2">
|
||||
<span className="w-14 shrink-0 text-[11px] font-bold text-muted-foreground">{t('flxp.txFilter')}</span>
|
||||
{(() => {
|
||||
const editTX = (patch: Partial<FlexState>) => { hold.current['tx_filter_low'] = Date.now() + 8000; hold.current['tx_filter_high'] = Date.now() + 8000; setSt((p) => ({ ...p, ...patch })); };
|
||||
const commitTX = () => { hold.current['tx_filter_low'] = Date.now() + 900; hold.current['tx_filter_high'] = Date.now() + 900; FlexSetTXFilter(st.tx_filter_low || 0, st.tx_filter_high || 0).catch(() => {}); };
|
||||
const inp = 'w-[70px] h-8 rounded-md border border-input bg-background px-2 text-xs font-mono tabular-nums disabled:opacity-40';
|
||||
return (<>
|
||||
<input type="number" step={50} min={0} disabled={off} value={st.tx_filter_low || 0} className={inp}
|
||||
onChange={(e) => editTX({ tx_filter_low: parseInt(e.target.value, 10) || 0 })}
|
||||
onBlur={commitTX} onKeyDown={(e) => { if (e.key === 'Enter') { (e.target as HTMLInputElement).blur(); } }} />
|
||||
<span className="text-muted-foreground text-xs">–</span>
|
||||
<input type="number" step={50} min={0} disabled={off} value={st.tx_filter_high || 0} className={inp}
|
||||
onChange={(e) => editTX({ tx_filter_high: parseInt(e.target.value, 10) || 0 })}
|
||||
onBlur={commitTX} onKeyDown={(e) => { if (e.key === 'Enter') { (e.target as HTMLInputElement).blur(); } }} />
|
||||
<span className="text-[10px] text-muted-foreground/70 font-mono">Hz</span>
|
||||
</>);
|
||||
})()}
|
||||
</div>
|
||||
{/* Mic profile — SmartSDR named mic-EQ/processor presets. */}
|
||||
{!!st.mic_profiles && st.mic_profiles.length > 0 && (
|
||||
<div className="flex items-center gap-2">
|
||||
<span className="w-14 shrink-0 text-[11px] font-bold text-muted-foreground">{t('flxp.micProfile')}</span>
|
||||
<select disabled={off} value={st.mic_profile || ''}
|
||||
onChange={(e) => { const v = e.target.value; hold.current['mic_profile'] = Date.now() + 2000; setSt((p) => ({ ...p, mic_profile: v })); FlexSetMicProfile(v).catch(() => {}); }}
|
||||
className="flex-1 min-w-0 h-8 rounded-md border border-input bg-background px-2 text-xs">
|
||||
{!st.mic_profiles.includes(st.mic_profile || '') && <option value="">—</option>}
|
||||
{st.mic_profiles.map((p) => <option key={p} value={p}>{p}</option>)}
|
||||
</select>
|
||||
</div>
|
||||
)}
|
||||
</div>
|
||||
) : (
|
||||
/* CW keyer controls (replace VOX/PROC/MIC when the slice is in CW). */
|
||||
@@ -429,6 +586,10 @@ export function FlexPanel({ onCWSpeed, onReportRST }: { onCWSpeed?: (wpm: number
|
||||
<LevelRow label="NB" on={st.nb} disabled={rxOff} value={st.nb_level} accent="amber" sliderAccent="#d97706"
|
||||
onToggle={() => change('nb', !st.nb, () => FlexSetNB(!st.nb))}
|
||||
onLevel={(v) => change('nb_level', v, () => FlexSetNBLevel(v))} />
|
||||
{/* WNB — wideband noise blanker (the extra hardware NR the Flex has). */}
|
||||
<LevelRow label="WNB" on={st.wnb} disabled={rxOff} value={st.wnb_level} accent="amber" sliderAccent="#f59e0b"
|
||||
onToggle={() => change('wnb', !st.wnb, () => FlexSetWNB(!st.wnb))}
|
||||
onLevel={(v) => change('wnb_level', v, () => FlexSetWNBLevel(v))} />
|
||||
<LevelRow label="NR" on={st.nr} disabled={rxOff} value={st.nr_level} accent="cyan" sliderAccent="#0891b2"
|
||||
onToggle={() => change('nr', !st.nr, () => FlexSetNR(!st.nr))}
|
||||
onLevel={(v) => change('nr_level', v, () => FlexSetNRLevel(v))} />
|
||||
@@ -525,71 +686,29 @@ export function FlexPanel({ onCWSpeed, onReportRST }: { onCWSpeed?: (wpm: number
|
||||
<span className="px-2 py-1 rounded bg-danger-muted text-danger-muted-foreground text-xs font-bold">{t('flxp.fault')}: {st.amp_fault}</span>
|
||||
)}
|
||||
</div>
|
||||
{/* Amplifier meters (FWD / ID / TEMP) — moved here from the Meters card
|
||||
and shown compact so they sit with the amp controls. */}
|
||||
{(() => {
|
||||
const meters = st.meters || [];
|
||||
const dbmToW = (d: number) => Math.pow(10, (d - 30) / 10);
|
||||
const amp = meters.filter((m) => (m.src || '').toUpperCase().includes('AMP')
|
||||
&& !/^(RL|DRV)$/i.test((m.name || '').trim()));
|
||||
if (off || amp.length === 0) return null;
|
||||
return (
|
||||
<div className="grid grid-cols-2 sm:grid-cols-3 gap-2 mt-2 pt-2 border-t border-border/50">
|
||||
{amp.map((m) => {
|
||||
if (/fwd|pwr/i.test(m.name || '') && /dbm/i.test(m.unit || '')) {
|
||||
return <MeterBar key={m.id} compact label={m.name || `AMP ${m.id}`} value={peakHold(`amp${m.id}`, dbmToW(m.value))} unit="W" lo={0} hi={2000} accent="#dc2626" />;
|
||||
}
|
||||
const acc = /temp|degc|degf/i.test(`${m.unit}${m.name}`) ? '#ea580c' : /volt/i.test(m.unit || '') ? '#2563eb' : '#16a34a';
|
||||
return <MeterBar key={m.id} compact label={m.name || `AMP ${m.id}`} value={peakHold(`amp${m.id}`, m.value)} unit={m.unit} lo={m.lo} hi={m.hi} accent={acc} />;
|
||||
})}
|
||||
</div>
|
||||
);
|
||||
})()}
|
||||
</Card>
|
||||
)}
|
||||
|
||||
{/* Live meters (UDP VITA-49 stream) */}
|
||||
<Card icon={Gauge} title={t('flxp.meters')}>
|
||||
{(() => {
|
||||
const meters = st.meters || [];
|
||||
if (off || meters.length === 0) {
|
||||
return <p className="text-[11px] text-muted-foreground text-center py-2">{t('flxp.noMeters')}</p>;
|
||||
}
|
||||
const isDbm = (m?: Meter) => !!m && /dbm/i.test(m.unit || '');
|
||||
const dbmToW = (d: number) => Math.pow(10, (d - 30) / 10);
|
||||
// Radio meters (exclude the amplifier's, which we show separately).
|
||||
const radio = (name: string) => meters.find((m) =>
|
||||
(m.name || '').toUpperCase().includes(name) && !(m.src || '').toUpperCase().includes('AMP'));
|
||||
const sig = radio('LEVEL') || radio('SIGNAL');
|
||||
const fwd = radio('FWDPWR');
|
||||
const swr = radio('SWR');
|
||||
const amp = meters.filter((m) => (m.src || '').toUpperCase().includes('AMP')
|
||||
&& !/^(RL|DRV)$/i.test((m.name || '').trim()));
|
||||
const accentFor = (m: Meter) => /swr/i.test(`${m.unit}${m.name}`) ? '#dc2626'
|
||||
: /temp|degc|degf/i.test(`${m.unit}${m.name}`) ? '#ea580c'
|
||||
: /volt/i.test(m.unit || '') ? '#2563eb' : '#16a34a';
|
||||
// S-meter: dBm → S-units (S9 = -73 dBm on HF, 6 dB per unit).
|
||||
const sUnit = (dbm: number) => {
|
||||
const sv = (dbm + 127) / 6; // S0 = -127 dBm
|
||||
if (sv >= 9) {
|
||||
const over = Math.max(0, Math.round(dbm + 73)); // dB over S9
|
||||
return { display: over > 0 ? `S9+${over}` : 'S9', bar: sv, s: 9, over };
|
||||
}
|
||||
return { display: `S${Math.max(0, Math.round(sv))}`, bar: Math.max(0, sv), s: Math.max(0, sv), over: 0 };
|
||||
};
|
||||
const cur = [
|
||||
sig && (() => { const dbm = peakHold('s', sig.value); const s = sUnit(dbm); return (
|
||||
<MeterBar key="s" label="S-METER" value={s.bar} lo={0} hi={19} accent="#16a34a" display={s.display} extra={`${dbm.toFixed(1)} dBm`}
|
||||
title={onReportRST ? t('rst.clickToFill') : undefined}
|
||||
onClick={onReportRST ? () => onReportRST(sMeterRST(s.s, s.over, st.mode)) : undefined}
|
||||
segColor={(fr) => { const sval = fr * 19; return sval < 9 ? '#16a34a' : sval < 12.33 ? '#f59e0b' : '#dc2626'; }} />
|
||||
); })(),
|
||||
fwd && (() => { const w = peakHold('p', isDbm(fwd) ? dbmToW(fwd.value) : fwd.value); return (
|
||||
<MeterBar key="p" label="PWR" unit="W" lo={0} hi={120} accent="#dc2626"
|
||||
value={w} extra={isDbm(fwd) ? `${fwd.value.toFixed(1)} dBm` : undefined} />
|
||||
); })(),
|
||||
swr && <MeterBar key="w" label="SWR" value={peakHold('w', swr.value)} unit="" lo={1} hi={3} accent="#d97706" />,
|
||||
].filter(Boolean);
|
||||
return (
|
||||
<>
|
||||
<div className="grid grid-cols-2 sm:grid-cols-3 gap-2">{cur}</div>
|
||||
{amp.length > 0 && (
|
||||
<div className="border-t border-border/60 pt-2 mt-1">
|
||||
<div className="text-[10px] font-bold tracking-wider text-muted-foreground mb-1.5">{t('flxp.amplifierHdr')}</div>
|
||||
<div className="grid grid-cols-2 sm:grid-cols-3 gap-2">
|
||||
{amp.map((m) => {
|
||||
if (/fwd|pwr/i.test(m.name || '') && isDbm(m)) {
|
||||
return <MeterBar key={m.id} label={m.name || `AMP ${m.id}`} value={peakHold(`amp${m.id}`, dbmToW(m.value))} unit="W" lo={0} hi={2000} accent="#dc2626" extra={`${m.value.toFixed(1)} dBm`} />;
|
||||
}
|
||||
return <MeterBar key={m.id} label={m.name || `AMP ${m.id}`} value={peakHold(`amp${m.id}`, m.value)} unit={m.unit} lo={m.lo} hi={m.hi} accent={accentFor(m)} />;
|
||||
})}
|
||||
</div>
|
||||
</div>
|
||||
)}
|
||||
</>
|
||||
);
|
||||
})()}
|
||||
</Card>
|
||||
</div>
|
||||
</div>
|
||||
);
|
||||
|
||||
@@ -1,12 +1,15 @@
|
||||
import { useEffect, useRef, useState } from 'react';
|
||||
import { Radio, AudioLines, RefreshCw, Mic, Activity, SlidersHorizontal } from 'lucide-react';
|
||||
import { Radio, AudioLines, Mic, Activity, SlidersHorizontal, Antenna, Filter, Power } from 'lucide-react';
|
||||
import {
|
||||
GetIcomState, IcomRefresh,
|
||||
IcomSetAFGain, IcomSetRFGain, IcomSetNB, IcomSetNBLevel, IcomSetNR, IcomSetNRLevel,
|
||||
IcomSetANF, IcomSetAGC, IcomSetPreamp, IcomSetAtt, IcomSetFilter,
|
||||
IcomSetANF, IcomSetAPF, IcomSetAGC, IcomSetPreamp, IcomSetAtt, IcomSetFilter,
|
||||
IcomSetRFPower, IcomSetMicGain, IcomSetSplit, IcomTune, IcomSetPTT,
|
||||
IcomSetScope, IcomScopeData, IcomSetScopeMode, GetCATState, SetCATFrequency,
|
||||
IcomSetScope, IcomScopeData, IcomSetScopeMode, IcomSetScopeEdges, GetCATState, SetCATFrequency, SetCATMode,
|
||||
IcomSetRIT, IcomSetRITOn, IcomSetXITOn,
|
||||
IcomSetAntenna, IcomSetPBTInner, IcomSetPBTOuter, IcomSetManualNotch, IcomSetNotchPos,
|
||||
IcomSetSquelch, IcomSetComp, IcomSetCompLevel, IcomSetMonitor, IcomSetMonLevel,
|
||||
IcomSetVOX, IcomSetVOXGain, IcomSetAntiVOX, IcomSetPower,
|
||||
} from '../../wailsjs/go/main/App';
|
||||
import { cn } from '@/lib/utils';
|
||||
import { useI18n } from '@/lib/i18n';
|
||||
@@ -18,20 +21,75 @@ type IcomState = {
|
||||
s_meter: number; power_meter: number; swr_meter: number;
|
||||
rf_power: number; mic_gain: number;
|
||||
af_gain: number; rf_gain: number;
|
||||
nb: boolean; nb_level: number; nr: boolean; nr_level: number; anf: boolean;
|
||||
nb: boolean; nb_level: number; nr: boolean; nr_level: number; anf: boolean; apf: boolean;
|
||||
agc?: string; preamp: number; att: number; filter: number;
|
||||
rit_hz: number; rit_on: boolean; xit_on: boolean;
|
||||
antenna: number;
|
||||
pbt_inner: number; pbt_outer: number; manual_notch: boolean; notch_pos: number;
|
||||
squelch: number; comp: boolean; comp_level: number;
|
||||
monitor: boolean; mon_level: number;
|
||||
vox: boolean; vox_gain: number; anti_vox: number;
|
||||
};
|
||||
|
||||
const ZERO: IcomState = {
|
||||
available: false, transmitting: false, split: false,
|
||||
s_meter: 0, power_meter: 0, swr_meter: 0, rf_power: 0, mic_gain: 0,
|
||||
af_gain: 0, rf_gain: 0,
|
||||
nb: false, nb_level: 0, nr: false, nr_level: 0, anf: false,
|
||||
nb: false, nb_level: 0, nr: false, nr_level: 0, anf: false, apf: false,
|
||||
preamp: 0, att: 0, filter: 1,
|
||||
rit_hz: 0, rit_on: false, xit_on: false,
|
||||
antenna: 1,
|
||||
pbt_inner: 50, pbt_outer: 50, manual_notch: false, notch_pos: 50,
|
||||
squelch: 0, comp: false, comp_level: 0,
|
||||
monitor: false, mon_level: 0,
|
||||
vox: false, vox_gain: 0, anti_vox: 0,
|
||||
};
|
||||
|
||||
// Band buttons jump the VFO to a sensible default frequency (SSB/CW mix) using
|
||||
// the plain SetFrequency command — no band-stacking codes needed. Hz values.
|
||||
const BANDS: { l: string; hz: number }[] = [
|
||||
{ l: '160', hz: 1_840_000 }, { l: '80', hz: 3_750_000 }, { l: '40', hz: 7_100_000 },
|
||||
{ l: '30', hz: 10_130_000 }, { l: '20', hz: 14_150_000 }, { l: '17', hz: 18_130_000 },
|
||||
{ l: '15', hz: 21_250_000 }, { l: '12', hz: 24_950_000 }, { l: '10', hz: 28_400_000 },
|
||||
{ l: '6', hz: 50_150_000 },
|
||||
];
|
||||
|
||||
// Mode buttons for the console (like RS-BA1's row). SetCATMode picks USB/LSB for
|
||||
// SSB by frequency and the rig's data variant for digital modes.
|
||||
const MODES = ['SSB', 'CW', 'RTTY', 'PSK', 'AM', 'FM'];
|
||||
|
||||
// Attenuator steps are MODEL-dependent even though the CI-V command (0x11) is the
|
||||
// same: the value byte is the dB. The IC-7610 (and 7700/7800/7851) have a 6/12/18
|
||||
// dB stepped attenuator; the IC-7300/705/7100 have a single 20 dB attenuator; the
|
||||
// IC-9700 a single 10 dB. Offering the wrong steps = a dead button (the rig NAKs
|
||||
// e.g. 6 dB on a 7300). Default to the common single 20 dB for unknown models.
|
||||
function attOptions(model?: string): { v: string; l: string }[] {
|
||||
const m = (model ?? '').toUpperCase();
|
||||
const OFF = { v: '0', l: 'OFF' };
|
||||
if (/(7610|7700|7800|7850|7851)/.test(m)) {
|
||||
return [OFF, { v: '6', l: '6dB' }, { v: '12', l: '12dB' }, { v: '18', l: '18dB' }];
|
||||
}
|
||||
if (m.includes('9700')) return [OFF, { v: '10', l: '10dB' }];
|
||||
return [OFF, { v: '20', l: '20dB' }]; // IC-7300 / IC-705 / IC-7100 / default
|
||||
}
|
||||
|
||||
// fmtVFO renders a Hz frequency the way an Icom front panel does:
|
||||
// MHz "." 3-digit-kHz "." 2-digit-(10 Hz). 21032000 → "21.032.00".
|
||||
function fmtVFO(hz?: number): string {
|
||||
if (!hz || hz <= 0) return '––.–––.––';
|
||||
const mhz = Math.floor(hz / 1_000_000);
|
||||
const khz = Math.floor((hz % 1_000_000) / 1000);
|
||||
const h2 = Math.floor((hz % 1000) / 10);
|
||||
return `${mhz}.${String(khz).padStart(3, '0')}.${String(h2).padStart(2, '0')}`;
|
||||
}
|
||||
|
||||
// modeMatches marks a mode button active, folding the rig's USB/LSB into SSB.
|
||||
function modeMatches(btn: string, cur?: string): boolean {
|
||||
if (!cur) return false;
|
||||
if (btn === 'SSB') return cur === 'SSB' || cur === 'USB' || cur === 'LSB';
|
||||
return btn === cur;
|
||||
}
|
||||
|
||||
function Slider({ value, onChange, disabled, accent = '#2563eb', step = 1 }: {
|
||||
value: number; onChange: (v: number) => void; disabled?: boolean; accent?: string; step?: number;
|
||||
}) {
|
||||
@@ -148,25 +206,6 @@ function Meter({ label, value, accent, scale, onClick, title }: { label: string;
|
||||
return <div className="flex items-center gap-2">{body}</div>;
|
||||
}
|
||||
|
||||
// HdrMeter — a compact live meter for the model header band (S when receiving,
|
||||
// Po/SWR when transmitting). Clickable variant sends the S reading to RST tx.
|
||||
function HdrMeter({ label, value, accent, scale, onClick, title }: {
|
||||
label: string; value: number; accent: string; scale: string; onClick?: () => void; title?: string;
|
||||
}) {
|
||||
const v = Math.max(0, Math.min(100, value));
|
||||
const body = (
|
||||
<>
|
||||
<span className="w-5 shrink-0 text-[10px] font-bold uppercase tracking-wider text-muted-foreground">{label}</span>
|
||||
<div className="w-24 sm:w-32 h-2 rounded-full bg-muted/70 overflow-hidden">
|
||||
<div className="h-full rounded-full transition-[width] duration-150" style={{ width: `${v}%`, background: accent }} />
|
||||
</div>
|
||||
<span className="w-12 text-right text-[11px] font-mono font-bold tabular-nums" style={{ color: accent }}>{scale}</span>
|
||||
</>
|
||||
);
|
||||
if (onClick) return <button type="button" onClick={onClick} title={title} className="flex items-center gap-1.5 rounded-md hover:bg-muted/60 px-1.5 py-0.5 -my-0.5">{body}</button>;
|
||||
return <div className="flex items-center gap-1.5 px-1.5">{body}</div>;
|
||||
}
|
||||
|
||||
// ShiftRow — a RIT / ΔTX offset control: on/off chip + a wheel-adjustable signed
|
||||
// offset (±10 Hz per notch or per ± button) + a clear (0) button.
|
||||
function ShiftRow({ label, on, hz, accent, onToggle, onDelta, onClear }: {
|
||||
@@ -244,12 +283,31 @@ function ScopePanadapter() {
|
||||
const holdRef = useRef<number[]>([]); // per-bin peak-hold line
|
||||
const spanRef = useRef({ low: 0, high: 0 }); // latest sweep edges, for click-to-tune
|
||||
const vfoRef = useRef(0); // latest VFO frequency, for wheel-tune
|
||||
const centerRef = useRef(0); // scope centre we last set (for pan ◀/▶)
|
||||
|
||||
const toggle = () => {
|
||||
const next = !on;
|
||||
setOn(next);
|
||||
IcomSetScope(next).catch(() => {});
|
||||
};
|
||||
|
||||
// Centre/pan the FIXED scope: set the edges to centre ±50 kHz (a 100 kHz
|
||||
// window). "Centre" uses the live VFO; ◀/▶ shift the window by 50 kHz. This
|
||||
// just writes the rig's fixed edges — simple and independent of the waveform
|
||||
// decode.
|
||||
const SCOPE_HALF = 50_000;
|
||||
const applyEdges = (center: number) => {
|
||||
if (center <= 0) return;
|
||||
centerRef.current = center;
|
||||
setFixed(true);
|
||||
IcomSetScopeEdges(center - SCOPE_HALF, center + SCOPE_HALF).catch(() => {});
|
||||
};
|
||||
const centerOnVfo = async () => {
|
||||
let c = vfoRef.current;
|
||||
if (c <= 0) { try { const cs = await GetCATState(); c = cs?.freq_hz || 0; } catch {} }
|
||||
applyEdges(c);
|
||||
};
|
||||
const pan = (dir: number) => applyEdges((centerRef.current || vfoRef.current) + dir * SCOPE_HALF);
|
||||
const setMode = (nextFixed: boolean) => {
|
||||
setFixed(nextFixed);
|
||||
IcomSetScopeMode(nextFixed).catch(() => {});
|
||||
@@ -370,19 +428,28 @@ function ScopePanadapter() {
|
||||
ctx.strokeStyle = '#7dd3fc'; ctx.lineWidth = 1.5; ctx.lineJoin = 'round'; ctx.stroke();
|
||||
ctx.restore();
|
||||
|
||||
// VFO marker: translucent band + crisp line + top marker triangle. In centre
|
||||
// mode the span tracks the VFO, so fall back to the exact centre when the
|
||||
// reported freq isn't inside the (just-updated) span — you always see where
|
||||
// you are.
|
||||
const inSpan = vfoHz > 0 && lowHz > 0 && highHz > lowHz && vfoHz >= lowHz && vfoHz <= highHz;
|
||||
const markerX = inSpan ? ((vfoHz - lowHz) / (highHz - lowHz)) * w : (!fixedMode ? w / 2 : -1);
|
||||
// VFO marker: you should ALWAYS see where you are. Exact position when the VFO
|
||||
// is inside the span; the centre in CTR mode; clamped to the nearest edge with
|
||||
// a sideways arrow in FIX mode when the fixed scope doesn't cover the VFO (so
|
||||
// you can tell which way to tune to get it back on-screen).
|
||||
const haveVfo = vfoHz > 0 && lowHz > 0 && highHz > lowHz;
|
||||
const inSpan = haveVfo && vfoHz >= lowHz && vfoHz <= highHz;
|
||||
let markerX = -1;
|
||||
let offEdge = 0; // -1 = VFO off the left edge, +1 = off the right
|
||||
if (inSpan) markerX = ((vfoHz - lowHz) / (highHz - lowHz)) * w;
|
||||
else if (!fixedMode) markerX = w / 2;
|
||||
else if (haveVfo) { offEdge = vfoHz < lowHz ? -1 : 1; markerX = offEdge < 0 ? 1 : w - 1; }
|
||||
if (markerX >= 0) {
|
||||
const x = markerX;
|
||||
ctx.fillStyle = 'rgba(244,63,94,0.10)'; ctx.fillRect(x - 5, 0, 10, h);
|
||||
ctx.strokeStyle = 'rgba(244,63,94,0.9)'; ctx.lineWidth = 1.25;
|
||||
ctx.beginPath(); ctx.moveTo(x, 0); ctx.lineTo(x, h); ctx.stroke();
|
||||
ctx.fillStyle = 'rgba(244,63,94,0.95)';
|
||||
ctx.beginPath(); ctx.moveTo(x - 4, 0); ctx.lineTo(x + 4, 0); ctx.lineTo(x, 6); ctx.closePath(); ctx.fill();
|
||||
if (offEdge === 0) {
|
||||
ctx.beginPath(); ctx.moveTo(x - 4, 0); ctx.lineTo(x + 4, 0); ctx.lineTo(x, 6); ctx.closePath(); ctx.fill();
|
||||
} else {
|
||||
const yh = 8; ctx.beginPath(); ctx.moveTo(x, yh - 5); ctx.lineTo(x + offEdge * 7, yh); ctx.lineTo(x, yh + 5); ctx.closePath(); ctx.fill();
|
||||
}
|
||||
}
|
||||
|
||||
// Frequency scale. In fixed mode the rig reports usable edge frequencies, so
|
||||
@@ -448,6 +515,16 @@ function ScopePanadapter() {
|
||||
<Activity className="size-4" style={{ color: '#38bdf8' }} />
|
||||
<span className="text-xs font-bold uppercase tracking-wider text-foreground/80">{t('icmp.spectrum')}</span>
|
||||
<div className="ml-auto flex items-center gap-2 shrink-0">
|
||||
{on && (
|
||||
<div className="inline-flex rounded-md border border-border overflow-hidden">
|
||||
<button type="button" onClick={() => pan(-1)} title={t('icmp.scopePanDown')}
|
||||
className="px-2 py-1 text-xs font-bold bg-card text-muted-foreground hover:bg-muted border-r border-border">◀</button>
|
||||
<button type="button" onClick={centerOnVfo} title={t('icmp.scopeCenterVfo')}
|
||||
className="px-2 py-1 text-[11px] font-bold bg-card text-muted-foreground hover:bg-muted border-r border-border">⊙</button>
|
||||
<button type="button" onClick={() => pan(1)} title={t('icmp.scopePanUp')}
|
||||
className="px-2 py-1 text-xs font-bold bg-card text-muted-foreground hover:bg-muted">▶</button>
|
||||
</div>
|
||||
)}
|
||||
{on && (
|
||||
<Segmented value={fixed ? 'FIX' : 'CTR'} options={[{ v: 'CTR', l: 'CTR' }, { v: 'FIX', l: 'FIX' }]}
|
||||
onChange={(v) => setMode(v === 'FIX')} />
|
||||
@@ -472,20 +549,24 @@ function ScopePanadapter() {
|
||||
// Unlike the Flex (which pushes state), the Icom is polled: meters/TX state are
|
||||
// read every cache cycle; DSP set-controls are optimistic and reconcile on the
|
||||
// next poll. Front-panel knob changes for DSP show after ↻ Refresh.
|
||||
export function IcomPanel({ onReportRST }: { onReportRST?: (rst: string) => void } = {}) {
|
||||
export function IcomPanel({ onReportRST, isNetwork = false }: { onReportRST?: (rst: string) => void; isNetwork?: boolean } = {}) {
|
||||
const { t } = useI18n();
|
||||
const [st, setSt] = useState<IcomState>(ZERO);
|
||||
const [busy, setBusy] = useState(false);
|
||||
const [cat, setCat] = useState<any>(null); // RigState (freq/mode/split) for the VFO display
|
||||
const [tuning, setTuning] = useState(false);
|
||||
const txRef = useRef(false);
|
||||
const stRef = useRef<IcomState>(ZERO); stRef.current = st;
|
||||
|
||||
const load = () => GetIcomState().then((s) => setSt((s ?? ZERO) as IcomState)).catch(() => {});
|
||||
const load = () => {
|
||||
GetIcomState().then((s) => setSt((s ?? ZERO) as IcomState)).catch(() => {});
|
||||
GetCATState().then((c) => setCat(c ?? null)).catch(() => {});
|
||||
};
|
||||
const setMode = (m: string) => { setCat((c: any) => (c ? { ...c, mode: m } : c)); SetCATMode(m).catch(() => {}); };
|
||||
// Initial one-shot read of the rig's DSP snapshot on mount (the 500ms poll only
|
||||
// re-reads the cache; the backend also loads DSP on the first responsive read).
|
||||
const refresh = async () => {
|
||||
setBusy(true);
|
||||
try { await IcomRefresh(); } catch {}
|
||||
await load();
|
||||
setBusy(false);
|
||||
};
|
||||
|
||||
useEffect(() => {
|
||||
@@ -543,6 +624,17 @@ export function IcomPanel({ onReportRST }: { onReportRST?: (rst: string) => void
|
||||
}
|
||||
|
||||
const tx = st.transmitting;
|
||||
// VFO readout. In split the active/listening VFO is RX (freq_rx_hz) and the
|
||||
// other is TX (freq_hz); otherwise there's a single VFO (freq_hz).
|
||||
const split = !!cat?.split;
|
||||
const mainHz: number = split ? (cat?.freq_rx_hz || 0) : (cat?.freq_hz || 0);
|
||||
const subHz: number = split ? (cat?.freq_hz || 0) : 0;
|
||||
const curMode: string = cat?.mode || st.mode || '';
|
||||
// Mode-dependent controls: VOX / speech-comp / mic are voice-only (hidden on
|
||||
// CW and data); APF (audio peak filter) is CW-only. Fold USB/LSB into phone.
|
||||
const um = curMode.toUpperCase();
|
||||
const isCW = um === 'CW' || um === 'CWR';
|
||||
const isPhone = um === 'SSB' || um === 'USB' || um === 'LSB' || um === 'AM' || um === 'FM';
|
||||
|
||||
return (
|
||||
<div className="h-full min-h-0 overflow-auto bg-background">
|
||||
@@ -559,26 +651,99 @@ export function IcomPanel({ onReportRST }: { onReportRST?: (rst: string) => void
|
||||
{st.mode ? <span className="text-xs font-mono text-muted-foreground">{st.mode}</span> : null}
|
||||
{st.split ? <span className="rounded-md bg-warning/20 px-1.5 py-0.5 text-[10px] font-bold uppercase tracking-wider text-warning">Split</span> : null}
|
||||
</div>
|
||||
{/* Live meter in the header band: S when receiving (click → RST tx), Po when transmitting. */}
|
||||
<div className="hidden md:flex items-center">
|
||||
{tx ? (
|
||||
<HdrMeter label="Po" value={st.power_meter} accent="#ef4444" scale={`${st.power_meter}%`} />
|
||||
) : (() => { const sp = sParts(st.s_meter); return (
|
||||
<HdrMeter label="S" value={st.s_meter} accent="#22c55e" scale={sp.label}
|
||||
title={onReportRST ? t('rst.clickToFill') : undefined}
|
||||
onClick={onReportRST ? () => onReportRST(sMeterRST(sp.s, sp.over, st.mode)) : undefined} />
|
||||
); })()}
|
||||
<div className="flex items-center gap-1.5">
|
||||
{/* Radio power ON / OFF — NETWORK only. Over USB the CI-V interface is
|
||||
unpowered while the rig is off, so power-ON can't reach it (OFF works
|
||||
but ON doesn't); hiding both avoids a dead button. On the network the
|
||||
rig's LAN server stays alive in standby, so both work. */}
|
||||
{isNetwork && (
|
||||
<>
|
||||
<button type="button" onClick={() => IcomSetPower(true).catch(() => {})} title={t('icmp.powerOnHint')}
|
||||
className="inline-flex items-center gap-1 rounded-md border border-success/60 bg-success/10 px-2 py-1 text-xs font-bold text-success hover:bg-success/20">
|
||||
<Power className="size-3.5" /> ON
|
||||
</button>
|
||||
<button type="button" onClick={() => IcomSetPower(false).catch(() => {})} title={t('icmp.powerOffHint')}
|
||||
className="inline-flex items-center gap-1 rounded-md border border-destructive/60 bg-destructive/10 px-2 py-1 text-xs font-bold text-destructive hover:bg-destructive/20">
|
||||
<Power className="size-3.5" /> OFF
|
||||
</button>
|
||||
</>
|
||||
)}
|
||||
</div>
|
||||
<button type="button" onClick={refresh} disabled={busy}
|
||||
className="inline-flex items-center gap-1.5 rounded-md border border-border bg-card px-2 py-1 text-xs hover:bg-muted disabled:opacity-40">
|
||||
<RefreshCw className={cn('size-3.5', busy && 'animate-spin')} /> {t('icmp.refresh')}
|
||||
</button>
|
||||
</div>
|
||||
|
||||
{/* VFO readout — the RS-BA1-style twin display: MAIN (active) + SUB, the big
|
||||
tabular frequency, mode badge, band, and the RIT/ΔTX offset. */}
|
||||
<div className="rounded-xl border border-border bg-muted/25 shadow-inner overflow-hidden">
|
||||
<div className="grid grid-cols-2 divide-x divide-border/60">
|
||||
{/* MAIN VFO */}
|
||||
<div className="px-4 py-3">
|
||||
<div className="flex items-center justify-between mb-1.5">
|
||||
<span className={cn('text-[10px] font-bold uppercase tracking-widest', tx ? 'text-destructive' : 'text-success')}>{tx ? 'Main · TX' : 'Main'}</span>
|
||||
{curMode ? <span className="rounded px-1.5 py-0.5 text-[10px] font-bold bg-primary/15 text-primary">{curMode}</span> : null}
|
||||
</div>
|
||||
<div className="font-mono font-bold tabular-nums leading-none text-foreground" style={{ fontSize: 'clamp(1.5rem, 4.5vw, 2.25rem)' }}>{fmtVFO(mainHz)}</div>
|
||||
<div className="mt-1.5 flex items-center gap-2 text-[11px] font-mono text-muted-foreground">
|
||||
<span>{cat?.band || (mainHz ? '' : '—')}</span>
|
||||
{st.rit_on ? <span className="text-primary">RIT {st.rit_hz > 0 ? '+' : st.rit_hz < 0 ? '−' : ''}{Math.abs(st.rit_hz)}</span> : null}
|
||||
{st.xit_on ? <span className="text-warning">ΔTX</span> : null}
|
||||
</div>
|
||||
</div>
|
||||
{/* SUB VFO (populated in split; dimmed otherwise) */}
|
||||
<div className={cn('px-4 py-3', !split && 'opacity-40')}>
|
||||
<div className="flex items-center justify-between mb-1.5">
|
||||
<span className="text-[10px] font-bold uppercase tracking-widest text-muted-foreground">Sub</span>
|
||||
{split ? <span className="rounded px-1.5 py-0.5 text-[10px] font-bold bg-warning/15 text-warning">SPLIT</span> : null}
|
||||
</div>
|
||||
<div className="font-mono font-bold tabular-nums leading-none text-muted-foreground" style={{ fontSize: 'clamp(1.5rem, 4.5vw, 2.25rem)' }}>{fmtVFO(subHz)}</div>
|
||||
<div className="mt-1.5 text-[11px] font-mono text-muted-foreground">{split ? 'TX' : ''}</div>
|
||||
</div>
|
||||
</div>
|
||||
{/* Mode selector row (RS-BA1's SSB/CW/RTTY/PSK/AM/FM). */}
|
||||
<div className="grid grid-cols-6 border-t border-border/60 divide-x divide-border/60">
|
||||
{MODES.map((m) => {
|
||||
const on = modeMatches(m, curMode);
|
||||
return (
|
||||
<button key={m} type="button" onClick={() => setMode(m)}
|
||||
className={cn('py-1.5 text-[11px] font-bold tracking-wide transition-colors',
|
||||
on ? 'bg-primary text-primary-foreground' : 'bg-card/40 text-muted-foreground hover:bg-muted')}>
|
||||
{m}
|
||||
</button>
|
||||
);
|
||||
})}
|
||||
</div>
|
||||
</div>
|
||||
|
||||
{/* Live meters — always visible: S (RX, click → RST), Po in watts, SWR. */}
|
||||
<div className="rounded-xl border border-border bg-card px-3 py-2.5 shadow-sm grid grid-cols-1 sm:grid-cols-3 gap-x-5 gap-y-2">
|
||||
{(() => { const sp = sParts(st.s_meter); return (
|
||||
<Meter label="S" value={st.s_meter} accent="#22c55e" scale={sp.label}
|
||||
title={onReportRST ? t('rst.clickToFill') : undefined}
|
||||
onClick={onReportRST ? () => onReportRST(sMeterRST(sp.s, sp.over, st.mode)) : undefined} />
|
||||
); })()}
|
||||
<Meter label="Po" value={st.power_meter} accent="#ef4444" scale={`${st.power_meter} W`} />
|
||||
<Meter label="SWR" value={st.swr_meter} accent="#f59e0b" scale={st.swr_meter > 0 ? `${(1 + st.swr_meter / 33.3).toFixed(1)}` : '1.0'} />
|
||||
</div>
|
||||
|
||||
{/* Spectrum panadapter (full width). */}
|
||||
<ScopePanadapter />
|
||||
|
||||
<div className="grid grid-cols-1 lg:grid-cols-2 gap-3">
|
||||
{/* Band buttons + antenna selection. */}
|
||||
<Card icon={Antenna} title={t('icmp.bandsAntenna')} accent="#0891b2">
|
||||
<div className="grid grid-cols-5 gap-1.5">
|
||||
{BANDS.map((b) => (
|
||||
<button key={b.l} type="button" onClick={() => SetCATFrequency(b.hz).catch(() => {})}
|
||||
className="px-1 py-1.5 rounded-md text-[11px] font-bold border border-border bg-card text-foreground hover:bg-muted transition-colors">
|
||||
{b.l}
|
||||
</button>
|
||||
))}
|
||||
</div>
|
||||
<Row label={t('icmp.antenna')}>
|
||||
<Segmented value={String(st.antenna)} options={[{ v: '1', l: 'ANT1' }, { v: '2', l: 'ANT2' }]}
|
||||
onChange={(v) => set({ antenna: parseInt(v) }, () => IcomSetAntenna(parseInt(v)))} />
|
||||
</Row>
|
||||
</Card>
|
||||
|
||||
{/* Clarifiers: RIT & ΔTX (XIT) — wheel or ± to shift, Ctrl+←/→ shifts RIT. */}
|
||||
<Card icon={SlidersHorizontal} title={t('icmp.clarifiers')} accent="#8b5cf6">
|
||||
<ShiftRow label="RIT" accent="#8b5cf6" on={st.rit_on} hz={st.rit_hz}
|
||||
@@ -588,12 +753,6 @@ export function IcomPanel({ onReportRST }: { onReportRST?: (rst: string) => void
|
||||
onToggle={() => set({ xit_on: !st.xit_on }, () => IcomSetXITOn(!st.xit_on))}
|
||||
onDelta={(d) => setRit(st.rit_hz + d)} onClear={() => setRit(0)} />
|
||||
<p className="text-[11px] text-muted-foreground">{t('icmp.ritHint')}</p>
|
||||
{tx && (
|
||||
<div className="pt-1 border-t border-border/60 space-y-3">
|
||||
<Meter label="Po" value={st.power_meter} accent="#ef4444" scale={`${st.power_meter}%`} />
|
||||
<Meter label="SWR" value={st.swr_meter} accent="#f59e0b" scale={st.swr_meter > 0 ? `${(1 + st.swr_meter / 33.3).toFixed(1)}` : '1.0'} />
|
||||
</div>
|
||||
)}
|
||||
</Card>
|
||||
|
||||
{/* Transmit controls. */}
|
||||
@@ -602,10 +761,12 @@ export function IcomPanel({ onReportRST }: { onReportRST?: (rst: string) => void
|
||||
<Slider value={st.rf_power} accent="#ef4444" onChange={(v) => set({ rf_power: v }, () => IcomSetRFPower(v))} />
|
||||
<span className="w-8 text-right text-xs font-mono tabular-nums text-muted-foreground">{st.rf_power}</span>
|
||||
</Row>
|
||||
<Row label={t('icmp.mic')}>
|
||||
<Slider value={st.mic_gain} accent="#ef4444" onChange={(v) => set({ mic_gain: v }, () => IcomSetMicGain(v))} />
|
||||
<span className="w-8 text-right text-xs font-mono tabular-nums text-muted-foreground">{st.mic_gain}</span>
|
||||
</Row>
|
||||
{isPhone && (
|
||||
<Row label={t('icmp.mic')}>
|
||||
<Slider value={st.mic_gain} accent="#ef4444" onChange={(v) => set({ mic_gain: v }, () => IcomSetMicGain(v))} />
|
||||
<span className="w-8 text-right text-xs font-mono tabular-nums text-muted-foreground">{st.mic_gain}</span>
|
||||
</Row>
|
||||
)}
|
||||
<div className="flex items-center gap-2 pt-1">
|
||||
<button type="button" onClick={toggleMox}
|
||||
className={cn('flex-1 px-3 py-1.5 rounded-md text-xs font-bold border transition-colors',
|
||||
@@ -619,6 +780,27 @@ export function IcomPanel({ onReportRST }: { onReportRST?: (rst: string) => void
|
||||
TUNE
|
||||
</button>
|
||||
</div>
|
||||
{/* Monitor (all modes) + speech processor / VOX (voice modes only —
|
||||
they don't exist on CW or data). */}
|
||||
<div className="pt-2 mt-1 border-t border-border/60 space-y-3">
|
||||
<LevelRow label="MON" on={st.monitor} value={st.mon_level}
|
||||
onToggle={() => set({ monitor: !st.monitor }, () => IcomSetMonitor(!st.monitor))}
|
||||
onLevel={(v) => set({ mon_level: v }, () => IcomSetMonLevel(v))} />
|
||||
{isPhone && (
|
||||
<>
|
||||
<LevelRow label="COMP" on={st.comp} value={st.comp_level}
|
||||
onToggle={() => set({ comp: !st.comp }, () => IcomSetComp(!st.comp))}
|
||||
onLevel={(v) => set({ comp_level: v }, () => IcomSetCompLevel(v))} />
|
||||
<LevelRow label="VOX" on={st.vox} value={st.vox_gain}
|
||||
onToggle={() => set({ vox: !st.vox }, () => IcomSetVOX(!st.vox))}
|
||||
onLevel={(v) => set({ vox_gain: v }, () => IcomSetVOXGain(v))} />
|
||||
<Row label="Anti-VOX">
|
||||
<Slider value={st.anti_vox} disabled={!st.vox} onChange={(v) => set({ anti_vox: v }, () => IcomSetAntiVOX(v))} />
|
||||
<span className="w-8 text-right text-xs font-mono tabular-nums text-muted-foreground">{st.anti_vox}</span>
|
||||
</Row>
|
||||
</>
|
||||
)}
|
||||
</div>
|
||||
</Card>
|
||||
|
||||
<Card icon={Radio} title={t('icmp.receive')} accent="#2563eb">
|
||||
@@ -630,6 +812,10 @@ export function IcomPanel({ onReportRST }: { onReportRST?: (rst: string) => void
|
||||
<Slider value={st.rf_gain} onChange={(v) => set({ rf_gain: v }, () => IcomSetRFGain(v))} />
|
||||
<span className="w-8 text-right text-xs font-mono tabular-nums text-muted-foreground">{st.rf_gain}</span>
|
||||
</Row>
|
||||
<Row label={t('icmp.squelch')}>
|
||||
<Slider value={st.squelch} onChange={(v) => set({ squelch: v }, () => IcomSetSquelch(v))} />
|
||||
<span className="w-8 text-right text-xs font-mono tabular-nums text-muted-foreground">{st.squelch}</span>
|
||||
</Row>
|
||||
<Row label="AGC">
|
||||
<Segmented value={st.agc || ''} options={[{ v: 'FAST', l: 'FAST' }, { v: 'MID', l: 'MID' }, { v: 'SLOW', l: 'SLOW' }]}
|
||||
onChange={(v) => set({ agc: v }, () => IcomSetAGC(v))} />
|
||||
@@ -639,7 +825,7 @@ export function IcomPanel({ onReportRST }: { onReportRST?: (rst: string) => void
|
||||
onChange={(v) => set({ preamp: parseInt(v) }, () => IcomSetPreamp(parseInt(v)))} />
|
||||
</Row>
|
||||
<Row label="Att">
|
||||
<Segmented value={String(st.att)} options={[{ v: '0', l: 'OFF' }, { v: '6', l: '6dB' }, { v: '12', l: '12dB' }, { v: '18', l: '18dB' }]}
|
||||
<Segmented value={String(st.att)} options={attOptions(cat?.rig)}
|
||||
onChange={(v) => set({ att: parseInt(v) }, () => IcomSetAtt(parseInt(v)))} />
|
||||
</Row>
|
||||
<Row label={t('icmp.filter')}>
|
||||
@@ -648,6 +834,31 @@ export function IcomPanel({ onReportRST }: { onReportRST?: (rst: string) => void
|
||||
</Row>
|
||||
</Card>
|
||||
|
||||
{/* Twin PBT + manual notch. Sliders are 0-100 with 50 = centre. */}
|
||||
<Card icon={Filter} title={t('icmp.passband')} accent="#7c3aed">
|
||||
<Row label="PBT-IN">
|
||||
<Slider value={st.pbt_inner} accent="#7c3aed" onChange={(v) => set({ pbt_inner: v }, () => IcomSetPBTInner(v))} />
|
||||
<span className="w-8 text-right text-xs font-mono tabular-nums text-muted-foreground">{st.pbt_inner - 50 > 0 ? '+' : ''}{st.pbt_inner - 50}</span>
|
||||
</Row>
|
||||
<Row label="PBT-OUT">
|
||||
<Slider value={st.pbt_outer} accent="#7c3aed" onChange={(v) => set({ pbt_outer: v }, () => IcomSetPBTOuter(v))} />
|
||||
<span className="w-8 text-right text-xs font-mono tabular-nums text-muted-foreground">{st.pbt_outer - 50 > 0 ? '+' : ''}{st.pbt_outer - 50}</span>
|
||||
</Row>
|
||||
<button type="button"
|
||||
onClick={() => { set({ pbt_inner: 50 }, () => IcomSetPBTInner(50)); set({ pbt_outer: 50 }, () => IcomSetPBTOuter(50)); }}
|
||||
className="w-full py-1 rounded-md text-[11px] font-bold border border-border bg-card text-muted-foreground hover:bg-muted">
|
||||
{t('icmp.pbtCenter')}
|
||||
</button>
|
||||
<div className="pt-1 border-t border-border/60 space-y-3">
|
||||
<div className="flex items-center gap-2">
|
||||
<Chip label="MN" on={st.manual_notch} onClick={() => set({ manual_notch: !st.manual_notch }, () => IcomSetManualNotch(!st.manual_notch))} />
|
||||
<Slider value={st.notch_pos} disabled={!st.manual_notch} accent="#7c3aed" onChange={(v) => set({ notch_pos: v }, () => IcomSetNotchPos(v))} />
|
||||
<span className="w-8 text-right text-xs font-mono tabular-nums text-muted-foreground">{st.notch_pos}</span>
|
||||
</div>
|
||||
<p className="text-[11px] text-muted-foreground">{t('icmp.manualNotch')}</p>
|
||||
</div>
|
||||
</Card>
|
||||
|
||||
<Card icon={AudioLines} title={t('icmp.noiseNotch')} accent="#16a34a">
|
||||
<LevelRow label="NB" on={st.nb} value={st.nb_level}
|
||||
onToggle={() => set({ nb: !st.nb }, () => IcomSetNB(!st.nb))}
|
||||
@@ -659,6 +870,13 @@ export function IcomPanel({ onReportRST }: { onReportRST?: (rst: string) => void
|
||||
<Chip label="ANF" on={st.anf} onClick={() => set({ anf: !st.anf }, () => IcomSetANF(!st.anf))} />
|
||||
<span className="text-xs text-muted-foreground">{t('icmp.autoNotch')}</span>
|
||||
</div>
|
||||
{/* APF (audio peak filter) — CW only: peaks the CW tone. */}
|
||||
{isCW && (
|
||||
<div className="flex items-center gap-2">
|
||||
<Chip label="APF" on={st.apf} onClick={() => set({ apf: !st.apf }, () => IcomSetAPF(!st.apf))} />
|
||||
<span className="text-xs text-muted-foreground">{t('icmp.apf')}</span>
|
||||
</div>
|
||||
)}
|
||||
</Card>
|
||||
</div>
|
||||
</div>
|
||||
|
||||
@@ -5,7 +5,7 @@ import {
|
||||
} from 'ag-grid-community';
|
||||
import { hamlogGridTheme } from '@/lib/gridTheme';
|
||||
import { AgGridReact } from 'ag-grid-react';
|
||||
import { Plus, Trash2, Radio, PlusCircle, MinusCircle, Search, UserPlus } from 'lucide-react';
|
||||
import { Plus, Trash2, Radio, PlusCircle, MinusCircle, Search, UserPlus, History } from 'lucide-react';
|
||||
import {
|
||||
Dialog, DialogContent, DialogHeader, DialogTitle, DialogFooter, DialogDescription,
|
||||
} from '@/components/ui/dialog';
|
||||
@@ -20,6 +20,7 @@ import {
|
||||
NetList, NetCreate, NetRename, NetDelete, NetOpen, NetClose, NetOpenID,
|
||||
NetRoster, NetRosterUpsert, NetRosterRemove, NetLookup,
|
||||
NetActiveList, NetActivate, NetDeactivate, NetUpdateActive, NetDiscardActive,
|
||||
WorkedBefore,
|
||||
} from '@/../wailsjs/go/main/App';
|
||||
import { netctl } from '@/../wailsjs/go/models';
|
||||
|
||||
@@ -67,6 +68,36 @@ export function NetControlPanel({ onLogged, countries, bands, modes }: Props) {
|
||||
const activeGrid = useRef<any>(null);
|
||||
const rosterGrid = useRef<any>(null);
|
||||
|
||||
// Worked-before for the clicked station (see if/when we contacted it before).
|
||||
const [wbCall, setWbCall] = useState('');
|
||||
const [wb, setWb] = useState<any>(null);
|
||||
const [wbBusy, setWbBusy] = useState(false);
|
||||
const wbReq = useRef(0);
|
||||
// Resizable height (drag the handle on top). Persisted.
|
||||
const [wbHeight, setWbHeight] = useState(() => {
|
||||
const v = parseInt(localStorage.getItem('opslog.netWbHeight') || '', 10);
|
||||
return v >= 80 && v <= 600 ? v : 176;
|
||||
});
|
||||
useEffect(() => { localStorage.setItem('opslog.netWbHeight', String(wbHeight)); }, [wbHeight]);
|
||||
const startWbResize = (e: React.MouseEvent) => {
|
||||
e.preventDefault();
|
||||
const startY = e.clientY, startH = wbHeight;
|
||||
const onMove = (ev: MouseEvent) => setWbHeight(Math.max(80, Math.min(600, startH - (ev.clientY - startY))));
|
||||
const onUp = () => { document.removeEventListener('mousemove', onMove); document.removeEventListener('mouseup', onUp); };
|
||||
document.addEventListener('mousemove', onMove);
|
||||
document.addEventListener('mouseup', onUp);
|
||||
};
|
||||
const showWorkedBefore = useCallback(async (call: string, dxcc = 0) => {
|
||||
const c = (call ?? '').trim().toUpperCase();
|
||||
setWbCall(c);
|
||||
if (!c) { setWb(null); return; }
|
||||
const req = ++wbReq.current;
|
||||
setWbBusy(true);
|
||||
try { const r = await WorkedBefore(c, dxcc); if (wbReq.current === req) setWb(r); }
|
||||
catch { if (wbReq.current === req) setWb(null); }
|
||||
finally { if (wbReq.current === req) setWbBusy(false); }
|
||||
}, []);
|
||||
|
||||
const isOpen = openId !== '' && openId === selId;
|
||||
|
||||
const refreshNets = useCallback(async () => {
|
||||
@@ -173,6 +204,9 @@ export function NetControlPanel({ onLogged, countries, bands, modes }: Props) {
|
||||
...c, callsign: (r.callsign || call).toUpperCase(),
|
||||
name: r.name || c.name, qth: r.qth || c.qth, country: r.country || c.country,
|
||||
dxcc: r.dxcc || c.dxcc, itu: r.itu || c.itu, cq: r.cq || c.cq,
|
||||
grid: r.grid || c.grid, address: r.address || c.address, state: r.state || c.state,
|
||||
cnty: r.cnty || c.cnty, cont: r.cont || c.cont, lat: r.lat || c.lat, lon: r.lon || c.lon,
|
||||
email: r.email || c.email,
|
||||
}));
|
||||
} catch (e: any) { setError(String(e?.message ?? e)); }
|
||||
finally { setLooking(false); }
|
||||
@@ -266,6 +300,7 @@ export function NetControlPanel({ onLogged, countries, bands, modes }: Props) {
|
||||
rowData={active}
|
||||
columnDefs={activeCols}
|
||||
defaultColDef={defaultColDef}
|
||||
onRowClicked={(e) => e.data && showWorkedBefore(e.data.callsign, (e.data as any).dxcc ?? 0)}
|
||||
onRowDoubleClicked={(e) => e.data && setEditingDraft(e.data)}
|
||||
rowSelection={{ mode: 'singleRow', checkboxes: false, enableClickSelection: true }}
|
||||
animateRows={false}
|
||||
@@ -281,6 +316,61 @@ export function NetControlPanel({ onLogged, countries, bands, modes }: Props) {
|
||||
</Button>
|
||||
</div>
|
||||
)}
|
||||
|
||||
{/* Worked-before for the clicked station — click a row (on air or
|
||||
roster) to see if/when we contacted it before. Lives INSIDE the
|
||||
on-air column so resizing only splits this column; the roster on
|
||||
the right keeps its full height. */}
|
||||
<div className="shrink-0 flex flex-col" style={{ height: wbHeight }}>
|
||||
<div className="h-1.5 shrink-0 cursor-ns-resize border-t border-border/60 hover:bg-primary/40 transition-colors" onMouseDown={startWbResize} title={t('ncp.wbResize')} />
|
||||
<div className="flex-1 min-h-0 bg-card flex flex-col">
|
||||
<div className="flex items-center gap-2 px-3 py-1.5 bg-muted/40 text-[11px] font-semibold uppercase tracking-wider text-muted-foreground shrink-0">
|
||||
<History className="size-3.5" />
|
||||
{t('ncp.workedBefore')}
|
||||
{wbCall && <span className="font-mono text-foreground normal-case">{wbCall}</span>}
|
||||
{wb && wb.count > 0 && (
|
||||
<span className="ml-auto font-normal normal-case text-foreground">
|
||||
{wb.count} QSO · {t('ncp.wbFirst')} {String(wb.first ?? '').slice(0, 10)} · {t('ncp.wbLast')} {String(wb.last ?? '').slice(0, 10)}
|
||||
{wb.dxcc_name ? ` · ${wb.dxcc_name} (${wb.dxcc_count})` : ''}
|
||||
</span>
|
||||
)}
|
||||
</div>
|
||||
<div className="flex-1 min-h-0 overflow-auto">
|
||||
{!wbCall ? (
|
||||
<div className="flex h-full items-center justify-center text-xs text-muted-foreground">{t('ncp.wbHint')}</div>
|
||||
) : wbBusy ? (
|
||||
<div className="flex h-full items-center justify-center text-xs text-muted-foreground">…</div>
|
||||
) : !wb || wb.count === 0 ? (
|
||||
<div className="flex h-full items-center justify-center text-xs text-muted-foreground">{t('ncp.wbNone')} {wbCall}</div>
|
||||
) : (
|
||||
<table className="w-full text-xs">
|
||||
<thead className="sticky top-0 bg-muted/30 text-muted-foreground">
|
||||
<tr className="text-left">
|
||||
<th className="px-3 py-1 font-semibold">{t('ncp.colDate')}</th>
|
||||
<th className="px-2 py-1 font-semibold">{t('ncp.colTimeOn')}</th>
|
||||
<th className="px-2 py-1 font-semibold">{t('ncp.colBand')}</th>
|
||||
<th className="px-2 py-1 font-semibold">{t('ncp.colMode')}</th>
|
||||
<th className="px-2 py-1 font-semibold">RST</th>
|
||||
<th className="px-2 py-1 font-semibold">{t('ncp.colComment')}</th>
|
||||
</tr>
|
||||
</thead>
|
||||
<tbody>
|
||||
{((wb.entries ?? []) as any[]).map((q, i) => (
|
||||
<tr key={q.id ?? i} className="border-t border-border/20 hover:bg-muted/30">
|
||||
<td className="px-3 py-1 font-mono">{String(q.qso_date ?? '').slice(0, 10)}</td>
|
||||
<td className="px-2 py-1 font-mono">{String(q.time_on ?? '').slice(0, 5)}</td>
|
||||
<td className="px-2 py-1">{q.band}</td>
|
||||
<td className="px-2 py-1">{q.mode}</td>
|
||||
<td className="px-2 py-1 font-mono">{(q.rst_sent ?? '')}/{(q.rst_rcvd ?? '')}</td>
|
||||
<td className="px-2 py-1 truncate max-w-[360px]">{q.comment}</td>
|
||||
</tr>
|
||||
))}
|
||||
</tbody>
|
||||
</table>
|
||||
)}
|
||||
</div>
|
||||
</div>
|
||||
</div>
|
||||
</div>
|
||||
|
||||
{/* NET USERS / roster (right) */}
|
||||
@@ -298,6 +388,7 @@ export function NetControlPanel({ onLogged, countries, bands, modes }: Props) {
|
||||
columnDefs={rosterCols}
|
||||
defaultColDef={defaultColDef}
|
||||
rowSelection={{ mode: 'multiRow', checkboxes: false, headerCheckbox: false, enableClickSelection: true }}
|
||||
onRowClicked={(e) => e.data && showWorkedBefore(e.data.callsign, (e.data as any).dxcc ?? 0)}
|
||||
onRowDoubleClicked={(e) => e.data && activate(e.data.callsign)}
|
||||
animateRows={false}
|
||||
getRowId={(p) => String((p.data as any).callsign)}
|
||||
|
||||
@@ -187,6 +187,9 @@ export function QSOEditModal({ qso, onSave, onDelete, onClose, countries = [], b
|
||||
// WPX, …) are derived from the QSO by the backend and shown read-only.
|
||||
const awardFieldRef = useRef<Record<string, string>>({});
|
||||
const [awardRefs, setAwardRefs] = useState('');
|
||||
// The refs present when the editor opened, so on save we can tell which ones
|
||||
// were REMOVED and strip their in-field tokens (see applyAwardRefs).
|
||||
const seedAwardRefsRef = useRef('');
|
||||
const [computedRefs, setComputedRefs] = useState<Array<{ code: string; ref: string; name?: string }>>([]);
|
||||
|
||||
// Load award definitions once, then seed the editable manual refs from the QSO.
|
||||
@@ -207,6 +210,7 @@ export function QSOEditModal({ qso, onSave, onDelete, onClose, countries = [], b
|
||||
.filter((r: any) => r.pickable)
|
||||
.map((r: any) => `${String(r.code).toUpperCase()}@${String(r.ref).toUpperCase()}`)
|
||||
.join(';');
|
||||
seedAwardRefsRef.current = seed;
|
||||
setAwardRefs(seed);
|
||||
} catch { /* leave manual refs empty on failure */ }
|
||||
})
|
||||
@@ -327,7 +331,7 @@ export function QSOEditModal({ qso, onSave, onDelete, onClose, countries = [], b
|
||||
// the dedicated columns, then route the picked refs back onto the payload
|
||||
// (POTA/SOTA/IOTA → columns, WWFF/custom → extras).
|
||||
out.iota = ''; out.sota_ref = ''; out.pota_ref = '';
|
||||
applyAwardRefs(out, awardRefs, awardFieldRef.current);
|
||||
applyAwardRefs(out, awardRefs, awardFieldRef.current, seedAwardRefsRef.current);
|
||||
onSave(out);
|
||||
}
|
||||
|
||||
@@ -347,7 +351,7 @@ export function QSOEditModal({ qso, onSave, onDelete, onClose, countries = [], b
|
||||
|
||||
return (
|
||||
<Dialog open onOpenChange={(o) => { if (!o) onClose(); }}>
|
||||
<DialogContent className="max-w-4xl max-h-[92vh] grid grid-rows-[auto_1fr_auto] gap-0 p-0">
|
||||
<DialogContent className="max-w-5xl max-h-[92vh] grid grid-rows-[auto_1fr_auto] gap-0 p-0">
|
||||
<DialogHeader className="flex-row items-baseline gap-2">
|
||||
<DialogTitle>{t('qedit.title')}</DialogTitle>
|
||||
<span className="font-mono text-xs text-muted-foreground">#{draft.id} — {draft.callsign}</span>
|
||||
|
||||
@@ -92,7 +92,7 @@ export const makeColCatalog = (t: TFn): ColEntry[] => [
|
||||
// ── QSO basics ──
|
||||
{ group: 'QSO', label: t('rqg.c.qso_date'), colId: 'qso_date', headerName: t('rqg.c.qso_date'), field: 'qso_date' as any, width: 150, cellClass: 'font-mono', valueFormatter: (p) => fmtDateUTC(p.value), sort: 'desc', defaultVisible: true },
|
||||
{ group: 'QSO', label: t('rqg.c.qso_date_off'), colId: 'qso_date_off', headerName: t('rqg.c.qso_date_off'), field: 'qso_date_off' as any, width: 150, cellClass: 'font-mono', valueFormatter: (p) => fmtDateUTC(p.value) },
|
||||
{ group: 'QSO', label: t('rqg.c.callsign'), colId: 'callsign', headerName: t('rqg.c.callsign'), field: 'callsign' as any, width: 110, cellClass: 'font-mono font-semibold', cellStyle: { color: '#b8410c' }, defaultVisible: true },
|
||||
{ group: 'QSO', label: t('rqg.c.callsign'), colId: 'callsign', headerName: t('rqg.c.callsign'), field: 'callsign' as any, width: 110, cellClass: 'font-mono font-semibold', defaultVisible: true },
|
||||
{ group: 'QSO', label: t('rqg.c.band'), colId: 'band', headerName: t('rqg.c.band'), field: 'band' as any, width: 75, cellClass: 'font-mono', defaultVisible: true },
|
||||
{ group: 'QSO', label: t('rqg.c.band_rx'), colId: 'band_rx', headerName: t('rqg.c.band_rx'), field: 'band_rx' as any, width: 75, cellClass: 'font-mono' },
|
||||
{ group: 'QSO', label: t('rqg.c.mode'), colId: 'mode', headerName: t('rqg.c.mode'), field: 'mode' as any, width: 80, cellClass: 'font-mono', defaultVisible: true },
|
||||
@@ -274,6 +274,12 @@ export function RecentQSOsGrid({ rows, selectAllSignal, onRowDoubleClicked, onRo
|
||||
headerTooltip: t('rqg.awardTip', { name: a.name }),
|
||||
width: 110,
|
||||
cellClass: 'text-[11px]',
|
||||
// Hidden by DEFAULT (award columns are opt-in). Without this, AG Grid shows
|
||||
// them whenever the saved column state doesn't cover them — a newly-added
|
||||
// award, an empty cache, or a rebuild that runs before the saved state is
|
||||
// re-applied — which is why "all award columns" kept reappearing. The user's
|
||||
// saved state (a column they explicitly showed) still overrides this.
|
||||
hide: true,
|
||||
valueGetter: (p) => (p.data as any)?.award_refs?.[a.code.toUpperCase()] ?? '',
|
||||
}));
|
||||
return [...base, ...awards];
|
||||
|
||||
@@ -21,6 +21,8 @@ import {
|
||||
GetEmailSettings, SaveEmailSettings, TestEmail,
|
||||
QSLGetEmailTemplates, QSLSaveEmailTemplates,
|
||||
GetDVKMessages, SetDVKLabel, DVKStartRecord, DVKStopRecord, DVKPreview, DVKStop, GetDVKStatus,
|
||||
AudioStartMonitor, AudioStopMonitor, AudioMonitorActive,
|
||||
AudioStartTX, AudioStopTX, AudioTXActive,
|
||||
ListClusterServers, SaveClusterServer, DeleteClusterServer,
|
||||
GetClusterAutoConnect, SetClusterAutoConnect,
|
||||
ConnectClusterServer, DisconnectClusterServer,
|
||||
@@ -35,6 +37,7 @@ import {
|
||||
GetExternalServices, SaveExternalServices, TestQRZUpload, TestClublogUpload, TestHRDLogUpload, TestEQSLUpload,
|
||||
GetPOTAToken, SavePOTAToken,
|
||||
TestLoTWUpload, ListTQSLStationLocations,
|
||||
DownloadLoTWUsers, GetLoTWUsersStatus,
|
||||
ComputeStationInfo,
|
||||
GetUIPref, SetUIPref,
|
||||
GetFlexState, GetFlexBandAntennas, SaveFlexBandAntennas,
|
||||
@@ -146,6 +149,7 @@ interface Props {
|
||||
onSaved: () => void;
|
||||
onMainPaneChanged?: (side: 'left' | 'right', value: string) => void; // live Main-view layout update
|
||||
flexAvailable?: boolean; // CAT backend is FlexRadio → offer it as a Main pane
|
||||
icomAvailable?: boolean; // CAT backend is Icom → offer the Icom console as a Main pane
|
||||
}
|
||||
|
||||
// Pretty little card showing what OpsLog will stamp on each QSO based on
|
||||
@@ -340,6 +344,9 @@ function TreeNodeView({
|
||||
// Select and slamming the open dropdown shut on any ambient re-render.
|
||||
const THEME_SWATCH: Record<Exclude<ThemeChoice, 'auto'>, { bg: string; card: string; accent: string }> = {
|
||||
'light-warm': { bg: '#e8dfc9', card: '#faf6ea', accent: '#b8410c' },
|
||||
'light-cool': { bg: '#f4f6f8', card: '#ffffff', accent: '#2563eb' },
|
||||
'light-sage': { bg: '#eef1ec', card: '#f8faf6', accent: '#2f855a' },
|
||||
'dim-slate': { bg: '#343b47', card: '#3d4552', accent: '#fb923c' },
|
||||
'dark-warm': { bg: '#221d18', card: '#2e2820', accent: '#e07a2e' },
|
||||
'dark-graphite': { bg: '#16181d', card: '#1f232b', accent: '#f97316' },
|
||||
'high-contrast': { bg: '#000000', card: '#0d0d0d', accent: '#ff7a1a' },
|
||||
@@ -573,17 +580,19 @@ const MAIN_PANE_OPTIONS: { value: string; label: string }[] = [
|
||||
{ value: 'cluster', label: 'Cluster spots' },
|
||||
{ value: 'worked', label: 'Worked before' },
|
||||
{ value: 'recent', label: 'Recent QSOs' },
|
||||
{ value: 'netcontrol', label: 'Net control' },
|
||||
];
|
||||
function MainViewPanes({ onChanged, flexAvailable }: { onChanged?: (side: 'left' | 'right', value: string) => void; flexAvailable?: boolean }) {
|
||||
function MainViewPanes({ onChanged, flexAvailable, icomAvailable }: { onChanged?: (side: 'left' | 'right', value: string) => void; flexAvailable?: boolean; icomAvailable?: boolean }) {
|
||||
const [left, setLeft] = useState('map1');
|
||||
const [right, setRight] = useState('map2');
|
||||
// FlexRadio is only offered when the CAT backend is a Flex. Sorted A→Z.
|
||||
const options = (flexAvailable
|
||||
? [...MAIN_PANE_OPTIONS, { value: 'flex', label: 'FlexRadio controls' }]
|
||||
: [...MAIN_PANE_OPTIONS]
|
||||
).sort((a, b) => a.label.localeCompare(b.label));
|
||||
// Radio-control panes are only offered when that CAT backend is active. Sorted A→Z.
|
||||
const options = [
|
||||
...MAIN_PANE_OPTIONS,
|
||||
...(flexAvailable ? [{ value: 'flex', label: 'FlexRadio controls' }] : []),
|
||||
...(icomAvailable ? [{ value: 'icom', label: 'Icom console' }] : []),
|
||||
].sort((a, b) => a.label.localeCompare(b.label));
|
||||
useEffect(() => {
|
||||
const valid = (v: string) => v === 'flex' || MAIN_PANE_OPTIONS.some((o) => o.value === v);
|
||||
const valid = (v: string) => v === 'flex' || v === 'icom' || MAIN_PANE_OPTIONS.some((o) => o.value === v);
|
||||
Promise.all([GetUIPref('mainPaneLeft').catch(() => ''), GetUIPref('mainPaneRight').catch(() => '')])
|
||||
.then(([l, r]) => { if (valid(l)) setLeft(l); if (valid(r)) setRight(r); });
|
||||
}, []);
|
||||
@@ -756,7 +765,21 @@ function FlexBandAntennasPanel({ bands }: { bands: string[] }) {
|
||||
);
|
||||
}
|
||||
|
||||
export function SettingsModal({ onClose, onSaved, initialSection, onMainPaneChanged, flexAvailable }: Props) {
|
||||
// Known Icom models paired with their FACTORY default CI-V address. Picking a
|
||||
// model sets icom_addr so the backend identifies it (civ.ModelName) and the UI
|
||||
// adapts (e.g. the attenuator steps differ by model). Keep in lockstep with
|
||||
// civ.ModelName in internal/cat/civ/civ.go. `addr` is decimal.
|
||||
const ICOM_MODELS: { name: string; addr: number }[] = [
|
||||
{ name: 'IC-705', addr: 0xA4 },
|
||||
{ name: 'IC-7300', addr: 0x94 },
|
||||
{ name: 'IC-7610', addr: 0x98 },
|
||||
{ name: 'IC-7700', addr: 0x88 },
|
||||
{ name: 'IC-7800', addr: 0x80 },
|
||||
{ name: 'IC-9100', addr: 0x7C },
|
||||
{ name: 'IC-9700', addr: 0xA2 },
|
||||
];
|
||||
|
||||
export function SettingsModal({ onClose, onSaved, initialSection, onMainPaneChanged, flexAvailable, icomAvailable }: Props) {
|
||||
const { t } = useI18n();
|
||||
const [selected, setSelected] = useState<SectionId>((initialSection as SectionId) || 'station');
|
||||
const [loading, setLoading] = useState(true);
|
||||
@@ -792,8 +815,9 @@ export function SettingsModal({ onClose, onSaved, initialSection, onMainPaneChan
|
||||
const [bandDraft, setBandDraft] = useState('');
|
||||
const [modeDraft, setModeDraft] = useState('');
|
||||
const [catCfg, setCatCfg] = useState<CATSettings>({
|
||||
enabled: false, backend: 'omnirig', omnirig_rig: 1, flex_host: '', flex_port: 4992, flex_spots: false,
|
||||
icom_port: '', icom_baud: 115200, icom_addr: 0x98, tci_host: '', tci_port: 40001, tci_spots: false, poll_ms: 250, delay_ms: 0,
|
||||
enabled: false, backend: 'omnirig', omnirig_rig: 1, flex_host: '', flex_port: 4992, flex_spots: false, flex_decode_spots: false, flex_decode_secs: 120,
|
||||
icom_port: '', icom_baud: 115200, icom_addr: 0x98, icom_net_host: '', icom_net_user: '', icom_net_pass: '', icom_net_audio: false,
|
||||
tci_host: '', tci_port: 40001, tci_spots: false, poll_ms: 250, delay_ms: 0,
|
||||
digital_default: 'FT8',
|
||||
});
|
||||
const [rotator, setRotator] = useState<RotatorSettings>({
|
||||
@@ -859,6 +883,24 @@ export function SettingsModal({ onClose, onSaved, initialSection, onMainPaneChan
|
||||
const [dvkMsgs, setDvkMsgs] = useState<DVKMsg[]>([]);
|
||||
const [dvkStat, setDvkStat] = useState<DVKStat>({ recording: false, playing: false, rec_slot: 0 });
|
||||
const [dvkErr, setDvkErr] = useState('');
|
||||
const [monitorOn, setMonitorOn] = useState(false);
|
||||
const [txOn, setTxOn] = useState(false);
|
||||
useEffect(() => {
|
||||
AudioMonitorActive().then(setMonitorOn).catch(() => {});
|
||||
AudioTXActive().then(setTxOn).catch(() => {});
|
||||
}, []);
|
||||
const toggleMonitor = async () => {
|
||||
try {
|
||||
if (monitorOn) { await AudioStopMonitor(); setMonitorOn(false); }
|
||||
else { await AudioStartMonitor(); setMonitorOn(true); }
|
||||
} catch (err: any) { setDvkErr(String(err?.message ?? err)); }
|
||||
};
|
||||
const toggleTX = async () => {
|
||||
try {
|
||||
if (txOn) { await AudioStopTX(); setTxOn(false); }
|
||||
else { await AudioStartTX(); setTxOn(true); }
|
||||
} catch (err: any) { setDvkErr(String(err?.message ?? err)); }
|
||||
};
|
||||
|
||||
// General behaviour prefs (mirrored to the DB so they travel with data/).
|
||||
const [autofocusWB, setAutofocusWB] = useState(() => localStorage.getItem('opslog.autofocusWB') !== '0');
|
||||
@@ -958,6 +1000,16 @@ export function SettingsModal({ onClose, onSaved, initialSection, onMainPaneChan
|
||||
const [clublogTesting, setClublogTesting] = useState(false);
|
||||
const [lotwTest, setLotwTest] = useState<{ ok: boolean; msg: string } | null>(null);
|
||||
const [lotwTesting, setLotwTesting] = useState(false);
|
||||
// LoTW user-activity list (for the callsign badge): count + last refresh.
|
||||
const [lotwUsers, setLotwUsers] = useState<{ count: number; updated?: string }>({ count: 0 });
|
||||
const [lotwUsersBusy, setLotwUsersBusy] = useState(false);
|
||||
useEffect(() => { GetLoTWUsersStatus().then((s) => setLotwUsers(s as any)).catch(() => {}); }, []);
|
||||
const downloadLotwUsers = async () => {
|
||||
setLotwUsersBusy(true);
|
||||
try { await DownloadLoTWUsers(); const s = await GetLoTWUsersStatus(); setLotwUsers(s as any); }
|
||||
catch (e: any) { setLotwTest({ ok: false, msg: String(e?.message ?? e) }); }
|
||||
finally { setLotwUsersBusy(false); }
|
||||
};
|
||||
const [hrdlogTest, setHrdlogTest] = useState<{ ok: boolean; msg: string } | null>(null);
|
||||
const [hrdlogTesting, setHrdlogTesting] = useState(false);
|
||||
const [eqslTest, setEqslTest] = useState<{ ok: boolean; msg: string } | null>(null);
|
||||
@@ -1967,6 +2019,7 @@ export function SettingsModal({ onClose, onSaved, initialSection, onMainPaneChan
|
||||
<SelectItem value="omnirig">{t('cat.optOmnirig')}</SelectItem>
|
||||
<SelectItem value="flex">{t('cat.optFlex')}</SelectItem>
|
||||
<SelectItem value="icom">{t('cat.optIcom')}</SelectItem>
|
||||
<SelectItem value="icom-net">{t('cat.optIcomNet')}</SelectItem>
|
||||
<SelectItem value="tci">{t('cat.optTci')}</SelectItem>
|
||||
</SelectContent>
|
||||
</Select>
|
||||
@@ -2002,6 +2055,19 @@ export function SettingsModal({ onClose, onSaved, initialSection, onMainPaneChan
|
||||
<Checkbox checked={!!catCfg.flex_spots} onCheckedChange={(c) => setCatCfg((s) => ({ ...s, flex_spots: !!c }))} />
|
||||
{t('cat.flexSpots')} <span className="text-xs text-muted-foreground">{t('cat.flexSpotsHint')}</span>
|
||||
</label>
|
||||
<label className="col-span-2 flex items-center gap-2 text-sm cursor-pointer">
|
||||
<Checkbox checked={!!catCfg.flex_decode_spots} onCheckedChange={(c) => setCatCfg((s) => ({ ...s, flex_decode_spots: !!c }))} />
|
||||
{t('cat.flexDecodeSpots')} <span className="text-xs text-muted-foreground">{t('cat.flexDecodeSpotsHint')}</span>
|
||||
</label>
|
||||
{catCfg.flex_decode_spots && (
|
||||
<div className="col-span-2 flex items-center gap-2 pl-6">
|
||||
<Label className="text-sm">{t('cat.flexDecodeSecs')}</Label>
|
||||
<Input type="number" className="w-24" min={10} max={3600}
|
||||
value={catCfg.flex_decode_secs || 120}
|
||||
onChange={(e) => setCatCfg((s) => ({ ...s, flex_decode_secs: parseInt(e.target.value) || 120 }))} />
|
||||
<span className="text-xs text-muted-foreground">{t('cat.flexDecodeSecsHint')}</span>
|
||||
</div>
|
||||
)}
|
||||
</>
|
||||
)}
|
||||
{catCfg.backend === 'icom' && (
|
||||
@@ -2029,12 +2095,69 @@ export function SettingsModal({ onClose, onSaved, initialSection, onMainPaneChan
|
||||
</SelectContent>
|
||||
</Select>
|
||||
</div>
|
||||
<div className="space-y-1 col-span-2">
|
||||
<div className="space-y-1">
|
||||
<Label>{t('cat.icomModel')}</Label>
|
||||
<Select
|
||||
value={ICOM_MODELS.find((m) => m.addr === (catCfg.icom_addr ?? 0x98))?.name ?? '_custom'}
|
||||
onValueChange={(v) => { const m = ICOM_MODELS.find((x) => x.name === v); if (m) setCatCfg((s) => ({ ...s, icom_addr: m.addr })); }}>
|
||||
<SelectTrigger><SelectValue /></SelectTrigger>
|
||||
<SelectContent>
|
||||
{ICOM_MODELS.map((m) => <SelectItem key={m.name} value={m.name}>{m.name}</SelectItem>)}
|
||||
<SelectItem value="_custom">{t('cat.icomModelOther')}</SelectItem>
|
||||
</SelectContent>
|
||||
</Select>
|
||||
</div>
|
||||
<div className="space-y-1">
|
||||
<Label>{t('cat.civAddr')}</Label>
|
||||
<Input value={(catCfg.icom_addr ?? 0x98).toString(16).toUpperCase().padStart(2, '0')}
|
||||
onChange={(e) => { const n = parseInt(e.target.value.replace(/[^0-9a-fA-F]/g, ''), 16); setCatCfg((s) => ({ ...s, icom_addr: (n >= 0 && n <= 0xFF) ? n : s.icom_addr })); }} />
|
||||
<p className="text-xs text-muted-foreground">{t('cat.civHint')}</p>
|
||||
</div>
|
||||
<p className="col-span-2 text-xs text-muted-foreground">{t('cat.civHint')}</p>
|
||||
</>
|
||||
)}
|
||||
{catCfg.backend === 'icom-net' && (
|
||||
<>
|
||||
<div className="space-y-1">
|
||||
<Label>{t('cat.icomNetHost')}</Label>
|
||||
<Input placeholder="192.168.1.60" value={catCfg.icom_net_host ?? ''}
|
||||
onChange={(e) => setCatCfg((s) => ({ ...s, icom_net_host: e.target.value }))} />
|
||||
</div>
|
||||
<div className="space-y-1">
|
||||
<Label>{t('cat.icomModel')}</Label>
|
||||
<Select
|
||||
value={ICOM_MODELS.find((m) => m.addr === (catCfg.icom_addr ?? 0x98))?.name ?? '_custom'}
|
||||
onValueChange={(v) => { const m = ICOM_MODELS.find((x) => x.name === v); if (m) setCatCfg((s) => ({ ...s, icom_addr: m.addr })); }}>
|
||||
<SelectTrigger><SelectValue /></SelectTrigger>
|
||||
<SelectContent>
|
||||
{ICOM_MODELS.map((m) => <SelectItem key={m.name} value={m.name}>{m.name}</SelectItem>)}
|
||||
<SelectItem value="_custom">{t('cat.icomModelOther')}</SelectItem>
|
||||
</SelectContent>
|
||||
</Select>
|
||||
</div>
|
||||
<div className="space-y-1">
|
||||
<Label>{t('cat.civAddr')}</Label>
|
||||
<Input value={(catCfg.icom_addr ?? 0x98).toString(16).toUpperCase().padStart(2, '0')}
|
||||
onChange={(e) => { const n = parseInt(e.target.value.replace(/[^0-9a-fA-F]/g, ''), 16); setCatCfg((s) => ({ ...s, icom_addr: (n >= 0 && n <= 0xFF) ? n : s.icom_addr })); }} />
|
||||
</div>
|
||||
<div className="space-y-1">
|
||||
<Label>{t('cat.icomNetUser')}</Label>
|
||||
<Input value={catCfg.icom_net_user ?? ''}
|
||||
onChange={(e) => setCatCfg((s) => ({ ...s, icom_net_user: e.target.value }))} />
|
||||
</div>
|
||||
<div className="space-y-1">
|
||||
<Label>{t('cat.icomNetPass')}</Label>
|
||||
<Input type="password" value={catCfg.icom_net_pass ?? ''}
|
||||
onChange={(e) => setCatCfg((s) => ({ ...s, icom_net_pass: e.target.value }))} />
|
||||
</div>
|
||||
<p className="col-span-2 text-xs text-muted-foreground">{t('cat.icomNetHint')}</p>
|
||||
<label className="col-span-2 flex items-start gap-2 text-sm cursor-pointer">
|
||||
<Checkbox checked={!!(catCfg as any).icom_net_audio}
|
||||
onCheckedChange={(c) => setCatCfg((s) => ({ ...s, icom_net_audio: !!c } as any))} />
|
||||
<span>
|
||||
{t('cat.icomNetAudio')}
|
||||
<span className="block text-[11px] text-muted-foreground">{t('cat.icomNetAudioHint')}</span>
|
||||
</span>
|
||||
</label>
|
||||
</>
|
||||
)}
|
||||
{catCfg.backend === 'tci' && (
|
||||
@@ -2058,7 +2181,7 @@ export function SettingsModal({ onClose, onSaved, initialSection, onMainPaneChan
|
||||
</label>
|
||||
</>
|
||||
)}
|
||||
{(catCfg.backend === 'omnirig' || catCfg.backend === 'icom') && (
|
||||
{(catCfg.backend === 'omnirig' || catCfg.backend === 'icom' || catCfg.backend === 'icom-net') && (
|
||||
<>
|
||||
<div className="space-y-1">
|
||||
<Label>{t('cat.pollMs')}</Label>
|
||||
@@ -3455,6 +3578,23 @@ export function SettingsModal({ onClose, onSaved, initialSection, onMainPaneChan
|
||||
)}
|
||||
</div>
|
||||
</div>
|
||||
|
||||
{/* LoTW user list — powers the colour-coded "LoTW" badge next to the
|
||||
entered callsign (green < 1 week · amber 1–4 weeks · red > 30 days). */}
|
||||
<div className="border-t border-border/60 pt-3 space-y-2">
|
||||
<Label className="text-sm font-medium">{t('lotw.usersTitle')}</Label>
|
||||
<p className="text-[11px] text-muted-foreground">{t('lotw.usersHint')}</p>
|
||||
<div className="flex items-center gap-3">
|
||||
<Button variant="outline" size="sm" onClick={downloadLotwUsers} disabled={lotwUsersBusy}>
|
||||
<ArrowDown className="size-3.5" /> {lotwUsersBusy ? t('lotw.usersDownloading') : t('lotw.usersDownload')}
|
||||
</Button>
|
||||
<span className="text-xs text-muted-foreground">
|
||||
{lotwUsers.count > 0
|
||||
? t('lotw.usersLoaded', { n: lotwUsers.count.toLocaleString(), date: lotwUsers.updated ? new Date(lotwUsers.updated).toLocaleDateString() : '?' })
|
||||
: t('lotw.usersNone')}
|
||||
</span>
|
||||
</div>
|
||||
</div>
|
||||
</div>
|
||||
) : extSvcTab === 'pota' ? (
|
||||
<div className="space-y-4 max-w-2xl">
|
||||
@@ -3717,6 +3857,40 @@ export function SettingsModal({ onClose, onSaved, initialSection, onMainPaneChan
|
||||
<strong>From Radio</strong> = what you receive (used by the QSO recorder).{' '}
|
||||
<strong>To Radio</strong> = where voice-keyer messages are transmitted.
|
||||
</p>
|
||||
<div className="flex items-center gap-3">
|
||||
<Button
|
||||
variant={monitorOn ? 'default' : 'outline'}
|
||||
size="sm"
|
||||
className="h-8"
|
||||
onClick={toggleMonitor}
|
||||
disabled={!monitorOn && !audioCfg.from_radio}
|
||||
title="Hear the rig's RX audio (From Radio) through your Listening device"
|
||||
>
|
||||
{monitorOn ? '■ Stop listening' : '▶ Listen to radio'}
|
||||
</Button>
|
||||
<span className="text-[11px] text-muted-foreground">
|
||||
{monitorOn
|
||||
? 'RX monitor running — From Radio → Listening device.'
|
||||
: 'Live-monitor the rig here (USB codec now; network audio later).'}
|
||||
</span>
|
||||
</div>
|
||||
<div className="flex items-center gap-3">
|
||||
<Button
|
||||
variant={txOn ? 'destructive' : 'outline'}
|
||||
size="sm"
|
||||
className="h-8"
|
||||
onClick={toggleTX}
|
||||
disabled={!txOn && !audioCfg.to_radio}
|
||||
title="Key PTT and pipe your live mic into the rig (To Radio device)"
|
||||
>
|
||||
{txOn ? '■ Stop talking (TX)' : '🎙 Talk to radio (TX)'}
|
||||
</Button>
|
||||
<span className="text-[11px] text-muted-foreground">
|
||||
{txOn
|
||||
? 'TRANSMITTING — mic → To Radio, PTT keyed. Click to stop.'
|
||||
: 'Live mic → rig with PTT (USB now; network TX later).'}
|
||||
</span>
|
||||
</div>
|
||||
</div>
|
||||
|
||||
<div className="border-t border-border/60 pt-3 space-y-3 max-w-2xl">
|
||||
@@ -3904,7 +4078,7 @@ export function SettingsModal({ onClose, onSaved, initialSection, onMainPaneChan
|
||||
<TelemetryToggle />
|
||||
<LiveStatusToggle />
|
||||
|
||||
<MainViewPanes onChanged={onMainPaneChanged} flexAvailable={flexAvailable} />
|
||||
<MainViewPanes onChanged={onMainPaneChanged} flexAvailable={flexAvailable} icomAvailable={icomAvailable} />
|
||||
|
||||
<div className="border-t border-border/60 pt-4 space-y-2">
|
||||
<h4 className="text-sm font-semibold text-foreground">Password encryption</h4>
|
||||
|
||||
@@ -321,7 +321,6 @@ function EditDialog({
|
||||
<Label>{t('udpp.name')}</Label>
|
||||
<Input
|
||||
autoFocus
|
||||
placeholder={draft.direction === 'inbound' ? t('udpp.namePhInbound') : t('udpp.namePhOutbound')}
|
||||
value={draft.name}
|
||||
onChange={(e) => setDraft((d) => ({ ...d, name: e.target.value }))}
|
||||
/>
|
||||
|
||||
@@ -292,6 +292,7 @@ const QSO_FIELD_WEIGHT: Record<string, number> = {
|
||||
|
||||
// QSOBoxView renders the confirmation box with per-QSO values.
|
||||
function QSOBoxView({ box, values }: { box: QSOBox; values: Record<string, string> }) {
|
||||
const fg = box.fg || '#14243a'; // text colour (field labels use it at 0.6 opacity)
|
||||
const avail = box.w - 56;
|
||||
const total = box.fields.reduce((s, f) => s + (QSO_FIELD_WEIGHT[f] ?? 1), 0) || 1;
|
||||
let cursor = 28;
|
||||
@@ -304,24 +305,24 @@ function QSOBoxView({ box, values }: { box: QSOBox; values: Record<string, strin
|
||||
return (
|
||||
<>
|
||||
<rect width={box.w} height={box.h} rx={box.radius} fill={box.bg} opacity={box.bg_opacity} />
|
||||
<text x={28} y={22} fontSize={34} fontWeight={700} fill="#1b2a3d"
|
||||
<text x={28} y={22} fontSize={34} fontWeight={700} fill={fg}
|
||||
fontFamily="'Segoe UI', Arial, sans-serif" dominantBaseline="text-before-edge">
|
||||
{box.title}
|
||||
</text>
|
||||
{cols.map(({ f, x }) => (
|
||||
<g key={f} transform={`translate(${Math.round(x)} ${box.h * 0.42})`}>
|
||||
<text fontSize={19} fill="#6b7a8c" letterSpacing={1.5}
|
||||
<text fontSize={19} fill={fg} opacity={0.6} letterSpacing={1.5}
|
||||
fontFamily="'Segoe UI', Arial, sans-serif" dominantBaseline="text-before-edge">
|
||||
{(QSO_FIELD_LABELS[f] ?? f).toUpperCase()}
|
||||
</text>
|
||||
<text y={26} fontSize={28} fontWeight={700} fill="#14243a"
|
||||
<text y={26} fontSize={28} fontWeight={700} fill={fg}
|
||||
fontFamily="'Segoe UI', Arial, sans-serif" dominantBaseline="text-before-edge">
|
||||
{values[f] ?? ''}
|
||||
</text>
|
||||
</g>
|
||||
))}
|
||||
{box.footer && (
|
||||
<text x={28} y={box.h - 18} fontSize={24} fontStyle="italic" fill="#3c4d63"
|
||||
<text x={28} y={box.h - 18} fontSize={24} fontStyle="italic" fill={fg} opacity={0.85}
|
||||
fontFamily="'Segoe UI', Arial, sans-serif">
|
||||
{box.footer}
|
||||
</text>
|
||||
|
||||
@@ -170,6 +170,35 @@ export function EditorPanel({ template, sel, presets, fontFamilies, onPatchEleme
|
||||
onChange={(w) => onPatchBox({ w })} />
|
||||
<NumberField label="Height" value={box.h} min={120} max={500}
|
||||
onChange={(h) => onPatchBox({ h })} />
|
||||
<NumberField label="Opacity %" value={Math.round((box.bg_opacity ?? 1) * 100)} min={0} max={100}
|
||||
onChange={(v) => onPatchBox({ bg_opacity: Math.max(0, Math.min(100, v)) / 100 })} />
|
||||
<div className="flex items-center justify-between gap-2">
|
||||
<Label className="text-xs text-muted-foreground">Background</Label>
|
||||
<div className="flex items-center gap-2">
|
||||
<input type="color" className="h-7 w-9 cursor-pointer rounded border border-border bg-transparent p-0"
|
||||
value={/^#[0-9a-fA-F]{6}$/.test(box.bg ?? '') ? box.bg : '#000000'}
|
||||
onChange={(ev) => onPatchBox({ bg: ev.target.value })} />
|
||||
<Input className="h-7 w-32 font-mono text-xs" value={box.bg ?? ''}
|
||||
onChange={(ev) => onPatchBox({ bg: ev.target.value })} />
|
||||
</div>
|
||||
</div>
|
||||
<div className="flex items-center justify-between gap-2">
|
||||
<Label className="text-xs text-muted-foreground">Text color</Label>
|
||||
<div className="flex items-center gap-2">
|
||||
<input type="color" className="h-7 w-9 cursor-pointer rounded border border-border bg-transparent p-0"
|
||||
value={/^#[0-9a-fA-F]{6}$/.test(box.fg ?? '') ? (box.fg as string) : '#14243a'}
|
||||
onChange={(ev) => onPatchBox({ fg: ev.target.value })} />
|
||||
<Input className="h-7 w-32 font-mono text-xs" value={box.fg ?? ''} placeholder="#14243a"
|
||||
onChange={(ev) => onPatchBox({ fg: ev.target.value })} />
|
||||
</div>
|
||||
</div>
|
||||
<NumberField label="Corner radius" value={box.radius ?? 0} min={0} max={80}
|
||||
onChange={(radius) => onPatchBox({ radius })} />
|
||||
<div className="flex items-center justify-between gap-2">
|
||||
<Label className="text-xs text-muted-foreground">Title</Label>
|
||||
<Input className="h-7 w-44 font-mono text-xs" value={box.title ?? ''}
|
||||
onChange={(ev) => onPatchBox({ title: ev.target.value })} />
|
||||
</div>
|
||||
<div className="flex items-center justify-between gap-2">
|
||||
<Label className="text-xs text-muted-foreground">Footer</Label>
|
||||
<Input className="h-7 w-44 font-mono text-xs" value={box.footer}
|
||||
|
||||
@@ -118,6 +118,7 @@ export interface QSOBox {
|
||||
h: number;
|
||||
bg: string;
|
||||
bg_opacity: number;
|
||||
fg?: string; // text colour (default dark); set it when using a dark background
|
||||
radius: number;
|
||||
title: string;
|
||||
fields: string[];
|
||||
|
||||
@@ -33,6 +33,19 @@ function appendTokens(existing: string | undefined, refs: string): string {
|
||||
return out;
|
||||
}
|
||||
|
||||
// removeTokens strips space/word-delimited tokens (a "A,B" ref string) from a
|
||||
// text field — the inverse of appendTokens. Used when a picked reference is
|
||||
// REMOVED so an in-field award (DDFM finds "D72" in the note) stops matching it;
|
||||
// otherwise the ref is re-derived from the field and reappears on reopen.
|
||||
function removeTokens(existing: string | undefined, refs: string): string {
|
||||
let out = existing ?? '';
|
||||
for (const tok of refs.split(',').map((s) => s.trim()).filter(Boolean)) {
|
||||
const re = new RegExp(`\\b${tok.replace(/[.*+?^${}()|[\]\\]/g, '\\$&')}\\b`, 'ig');
|
||||
out = out.replace(re, ' ');
|
||||
}
|
||||
return out.replace(/\s{2,}/g, ' ').trim();
|
||||
}
|
||||
|
||||
// MANUAL_REFS_KEY mirrors award.ManualRefsKey (Go): the ADIF extras key holding
|
||||
// the operator's per-QSO award-reference assignments as "CODE@REF;CODE@REF".
|
||||
// The award engine honours these regardless of how the award matches, so a
|
||||
@@ -47,8 +60,24 @@ const MANUAL_REFS_KEY = 'APP_OPSLOG_AWARDREFS';
|
||||
// data lives in its conventional place and exports correctly. Awards that match
|
||||
// a free-text field by description/pattern (address/qth/name/custom) rely solely
|
||||
// on the override — we don't pollute the text field with a code.
|
||||
export function applyAwardRefs(payload: any, awardRefs: string, fieldOf: Record<string, string>) {
|
||||
export function applyAwardRefs(payload: any, awardRefs: string, fieldOf: Record<string, string>, prevAwardRefs?: string) {
|
||||
const byCode = parseAwardRefs(awardRefs);
|
||||
// References the operator REMOVED since the editor opened: for in-field awards
|
||||
// (note/comment) strip the token from the field too, so a deleted DDFM/etc.
|
||||
// ref doesn't get re-derived from the leftover token and reappear on reopen.
|
||||
if (prevAwardRefs != null) {
|
||||
const prev = parseAwardRefs(prevAwardRefs);
|
||||
for (const [code, prevRef] of Object.entries(prev)) {
|
||||
const field = fieldOf[code] || code.toLowerCase();
|
||||
if (field !== 'note' && field !== 'notes' && field !== 'comment') continue;
|
||||
const now = new Set((byCode[code] ?? '').split(',').map((s) => s.trim().toUpperCase()).filter(Boolean));
|
||||
const removed = prevRef.split(',').map((s) => s.trim()).filter(Boolean).filter((r) => !now.has(r.toUpperCase()));
|
||||
if (removed.length === 0) continue;
|
||||
const rm = removed.join(',');
|
||||
if (field === 'comment') payload.comment = removeTokens(payload.comment, rm);
|
||||
else payload.notes = removeTokens(payload.notes, rm);
|
||||
}
|
||||
}
|
||||
const extras: Record<string, string> = { ...(payload.extras ?? {}) };
|
||||
const overrides: string[] = [];
|
||||
for (const [code, ref] of Object.entries(byCode)) {
|
||||
|
||||
+40
-22
@@ -13,6 +13,8 @@ type Dict = Record<string, string>;
|
||||
|
||||
const en: Dict = {
|
||||
// Menu bar
|
||||
'prop.title': 'Propagation', 'prop.geomag': 'Geomag', 'prop.refresh': 'Refresh space weather',
|
||||
'lotw.userTip': 'LoTW user — last upload {date} ({days} days ago)',
|
||||
'menu.file': 'File', 'menu.edit': 'Edit', 'menu.view': 'View', 'menu.tools': 'Tools',
|
||||
'file.import': 'Import ADIF…', 'file.export': 'Export ADIF…', 'file.exporting': 'Exporting…',
|
||||
'file.exportCabrillo': 'Export Cabrillo…', 'file.deleteAll': 'Delete all QSOs…', 'file.exit': 'Exit',
|
||||
@@ -21,6 +23,7 @@ const en: Dict = {
|
||||
'tools.qslManager': 'QSL Manager…', 'tools.qslDesigner': 'QSL Card Designer…',
|
||||
'tools.winkeyer': 'WinKeyer CW keyer', 'tools.dvk': 'Digital Voice Keyer', 'tools.cwDecoder': 'CW decoder (RX audio)',
|
||||
'tools.net': 'NET Control', 'tools.alerts': 'Alert management…', 'tools.contest': 'Contest mode',
|
||||
'alert.tuneHint': 'Click to tune the rig to this spot (freq + mode) and fill the call', 'alert.dismiss': 'Dismiss', 'alert.pending': '{n} recent spot alert(s) — click to view', 'alert.noneShort': 'No recent alerts', 'alert.recent': 'Recent alerts', 'alert.clear': 'Clear',
|
||||
'menu.help': 'Help', 'help.about': 'About OpsLog', 'tools.duplicates': 'Find duplicates…',
|
||||
// Duplicates modal
|
||||
'dup.title': 'Find duplicates', 'dup.scanning': 'Scanning the log…', 'dup.none': 'No duplicates found. 🎉',
|
||||
@@ -44,7 +47,8 @@ const en: Dict = {
|
||||
'lang.english': 'English', 'lang.french': 'Français',
|
||||
'settings.language': 'Language', 'settings.languageHint': 'Interface language.',
|
||||
'settings.theme': 'Theme', 'settings.themeHint': 'Interface colour theme.',
|
||||
'theme.auto': 'Auto (system)', 'theme.light-warm': 'Warm light', 'theme.dark-warm': 'Warm dark',
|
||||
'theme.auto': 'Auto (system)', 'theme.light-warm': 'Warm light', 'theme.light-cool': 'Cool light',
|
||||
'theme.light-sage': 'Sage light', 'theme.dim-slate': 'Dim slate', 'theme.dark-warm': 'Warm dark',
|
||||
'theme.dark-graphite': 'Graphite dark', 'theme.high-contrast': 'High contrast',
|
||||
// Settings navigation (sidebar groups + section names)
|
||||
'nav.user': 'User Configuration', 'nav.software': 'Software Configuration', 'nav.hardware': 'Hardware Configuration', 'nav.lists': 'Lists',
|
||||
@@ -130,9 +134,13 @@ const en: Dict = {
|
||||
'extsvc.hint': 'Upload logged QSOs to online logbooks. Each service uploads automatically on a new QSO when enabled; timing is per-service (immediate, or a 1–2 min delay so a mis-logged QSO can still be fixed first).',
|
||||
'hw.ultrabeam': 'Antenna (Ultrabeam)', 'hw.audioVoice': 'Audio devices & voice keyer',
|
||||
// CAT panel body
|
||||
'cat.enable': 'Enable CAT', 'cat.backend': 'Backend', 'cat.optOmnirig': 'OmniRig (any rig, Windows COM)', 'cat.optFlex': 'FlexRadio / SmartSDR (native)', 'cat.optIcom': 'Icom CI-V (USB serial)', 'cat.optTci': 'TCI (Expert Electronics / SunSDR)',
|
||||
'cat.omnirigRig': 'OmniRig rig slot', 'cat.flexIp': 'FlexRadio IP', 'cat.port': 'Port', 'cat.flexSpots': 'Show cluster spots on the panadapter', 'cat.flexSpotsHint': "(spots from OpsLog's DX cluster appear on the radio, auto-expire after 30 min)",
|
||||
'cat.icomPort': 'Icom CI-V port', 'cat.selectCom': 'Select COM port', 'cat.noPorts': 'No ports found', 'cat.baud': 'Baud rate', 'cat.civAddr': 'CI-V address (hex)', 'cat.civHint': 'IC-7610 = 98, IC-7300 = 94, IC-9700 = A2, IC-705 = A4. Set "CI-V USB Echo Back" OFF and CI-V baud to match on the rig.',
|
||||
'cat.enable': 'Enable CAT', 'cat.backend': 'Backend', 'cat.optOmnirig': 'OmniRig (any rig, Windows COM)', 'cat.optFlex': 'FlexRadio / SmartSDR (native)', 'cat.optIcom': 'Icom CI-V (USB serial)', 'cat.optIcomNet': 'Icom CI-V (network / remote)', 'cat.optTci': 'TCI (Expert Electronics / SunSDR)',
|
||||
'cat.icomNetHost': 'Rig IP / hostname', 'cat.icomNetUser': 'Network user (ID)', 'cat.icomNetPass': 'Network password',
|
||||
'cat.icomNetHint': "Connects to the rig's built-in LAN server directly — no RS-BA1 or Remote Utility needed (close them first). Use the Network User1 ID/Password set in the rig's Network menu. A rig in standby is powered on automatically.",
|
||||
'cat.icomNetAudio': 'Stream RX audio over the network (experimental)',
|
||||
'cat.icomNetAudioHint': 'Play the rig’s received audio through your Listening device (Settings → Audio) over the 50003 stream. Experimental — the audio framing is pending on-rig verification; leave off if control misbehaves.',
|
||||
'cat.omnirigRig': 'OmniRig rig slot', 'cat.flexIp': 'FlexRadio IP', 'cat.port': 'Port', 'cat.flexSpots': 'Show cluster spots on the panadapter', 'cat.flexSpotsHint': "(spots from OpsLog's DX cluster appear on the radio, auto-expire after 30 min)", 'cat.flexDecodeSpots': 'Show WSJT-X decodes on the panadapter', 'cat.flexDecodeSpotsHint': '(heard FT8/FT4 stations from your WSJT-X/JTDX UDP feed, one spot per call)', 'cat.flexDecodeSecs': 'Display for', 'cat.flexDecodeSecsHint': 'seconds before a station is removed',
|
||||
'cat.icomPort': 'Icom CI-V port', 'cat.selectCom': 'Select COM port', 'cat.noPorts': 'No ports found', 'cat.baud': 'Baud rate', 'cat.icomModel': 'Rig model', 'cat.icomModelOther': 'Other (custom address)', 'cat.civAddr': 'CI-V address (hex)', 'cat.civHint': 'Pick your model to set the CI-V address automatically (or choose "Other" and type it). Set "CI-V USB Echo Back" OFF and CI-V baud to match on the rig.',
|
||||
'cat.tciHost': 'TCI host', 'cat.tciHint': 'Enable the TCI server in ExpertSDR2/EESDR (Options → TCI). Default port 40001. Use 127.0.0.1 when OpsLog runs on the same PC.', 'cat.tciSpots': 'Show cluster spots on the panorama', 'cat.tciSpotsHint': "(spots from OpsLog's DX cluster appear on the SDR panadapter)",
|
||||
'cat.pollMs': 'Poll interval (ms)', 'cat.delayMs': 'CAT delay (ms)', 'cat.digitalDefault': 'Default digital mode (when rig reports DIG)', 'cat.modeBeforeFreq': 'Set mode before frequency', 'cat.modeBeforeFreqHint': '(older rigs that drop the mode after a band change)',
|
||||
'cat.omnirigHint': 'Configure your rig (COM port, baud rate, model) in OmniRig\'s own settings GUI first. OpsLog will read whichever Rig slot you select here. Set CAT delay above 0 if your rig drops commands sent back-to-back (some older Kenwood/Yaesu). OmniRig only reports generic "DIG" for digital modes — Default digital mode is the specific mode OpsLog will surface (and log).',
|
||||
@@ -141,6 +149,7 @@ const en: Dict = {
|
||||
'cat.ubOk': 'Connected — the Ultrabeam responded with a status frame.',
|
||||
// External services (repeated labels)
|
||||
'es.autoUpload': 'Automatic upload on new QSO', 'es.uploadTiming': 'Upload timing', 'es.immediate': 'Immediate', 'es.delayed': 'Delayed (1–2 min, lets you fix mistakes)', 'es.onClose': 'On app close (batch)', 'es.testConn': 'Test connection', 'es.testing': 'Testing…', 'es.password': 'Password', 'es.apiKey': 'API key', 'es.forceCall': 'Force station callsign', 'es.accountEmail': 'Account email', 'es.logbookCall': 'Logbook callsign',
|
||||
'lotw.usersTitle': 'LoTW user list', 'lotw.usersHint': "Downloads ARRL's public list of LoTW users + their last-upload date, to show a colour-coded LoTW badge next to a callsign (green < 1 week · amber 1–4 weeks · red > 30 days).", 'lotw.usersDownload': 'Download LoTW user list', 'lotw.usersDownloading': 'Downloading…', 'lotw.usersLoaded': '{n} users loaded · updated {date}', 'lotw.usersNone': 'Not downloaded yet — the badge stays hidden until you do.',
|
||||
'hw.connecting': 'Connecting…', 'hw.testConn': 'Test connection', 'hw.sending': 'Sending…', 'hw.testRotator': 'Test (point to 0°)',
|
||||
// Profiles panel
|
||||
'prof.deleteConfirm': 'Delete profile "{name}"? All its settings will be lost.', 'prof.dupPrompt': 'Name for the new profile (copy of "{name}"):', 'prof.dupSuffix': '{name} Copy', 'prof.newPrompt': 'Name for the new profile:', 'prof.newDefault': 'New profile',
|
||||
@@ -188,16 +197,16 @@ const en: Dict = {
|
||||
'wkp.breakIn': 'Break-in', 'wkp.breakInHint': "The rig's CW keyer only transmits when break-in is SEMI or FULL. OFF keys the sidetone but stays in receive.", 'wkp.bkOff': 'OFF', 'wkp.bkOffWarn': "won't transmit — set SEMI or FULL",
|
||||
'wkp.autoCallHint': 'Click a CQ macro (one whose text contains CQ) to resend it on a loop — message, gap, repeat — until you send another macro (e.g. a report), press Stop, or hit ESC. Non-CQ macros send once.', 'wkp.autoCall': 'Auto-call', 'wkp.gap': 'gap', 'wkp.gapHint': 'Seconds to wait after the message before resending', 'wkp.loopHint': 'click a CQ macro to loop it', 'wkp.macroN': 'Macro {n}',
|
||||
'dvkp.voiceKeyer': 'Voice keyer', 'dvkp.stop': 'Stop', 'dvkp.disable': 'Disable voice keyer', 'dvkp.noMsgPre': 'No messages recorded yet. Open', 'dvkp.settingsPath': 'Settings → Audio devices & voice keyer', 'dvkp.noMsgPost': 'to record F1–F6.', 'dvkp.transmit': 'Transmit F{slot}{label} ({dur}s)', 'dvkp.empty': 'F{slot} — empty', 'dvkp.message': 'message',
|
||||
'agp.portDeselect': 'Port {letter} — click to deselect', 'agp.portSelect': 'Select on port {letter}', 'agp.online': 'online', 'agp.offline': 'offline', 'agp.close': 'Close', 'agp.connecting': 'Connecting…', 'agp.noAntennas': 'No antennas configured.',
|
||||
'flxp.smartsdrRemote': 'SmartSDR remote control', 'flxp.offline': 'OFFLINE', 'flxp.waiting': 'Waiting for the FlexRadio… (set CAT to FlexRadio and connect)', 'flxp.transmit': 'Transmit', 'flxp.rfPower': 'RF Power', 'flxp.tunePwr': 'Tune Pwr', 'flxp.splitHint': 'Split: RX/TX on separate slices. ON creates a TX slice +1 kHz (CW) / +5 kHz (SSB) up, like SmartSDR.', 'flxp.voxDly': 'VOX Dly', 'flxp.speed': 'Speed', 'flxp.pitch': 'Pitch', 'flxp.delay': 'Delay',
|
||||
'flxp.receiveActive': 'Receive (active slice)', 'flxp.muted': 'Muted — click to unmute', 'flxp.mute': 'Mute RX audio', 'flxp.filter': 'Filter', 'flxp.amplifier': 'Amplifier', 'flxp.ampInLine': 'Amplifier is in line (transmitting through PA).', 'flxp.ampBypassed': 'Amplifier bypassed (standby).', 'flxp.pgConnected': 'PowerGenius connected', 'flxp.pgOffline': 'PowerGenius offline', 'flxp.fan': 'Fan', 'flxp.fanStandard': 'Standard', 'flxp.fanContest': 'Contest', 'flxp.fanBroadcast': 'Broadcast', 'flxp.fault': 'FAULT', 'flxp.meters': 'Meters', 'flxp.noMeters': "No meters yet — waiting for the radio's UDP stream…", 'flxp.amplifierHdr': 'AMPLIFIER',
|
||||
'icmp.spectrum': 'Spectrum', 'icmp.scopeFixed': 'Fixed — double-click / wheel to tune', 'icmp.scopeCenter': 'Center — follows VFO', 'icmp.scopeOff': 'Scope off', 'icmp.notConnected': "Icom not connected. Enable the Icom CI-V backend in Settings → CAT and connect the radio's USB port.", 'icmp.refresh': 'Refresh', 'icmp.meters': 'Meters', 'icmp.transmit': 'Transmit', 'icmp.power': 'Power', 'icmp.mic': 'Mic', 'icmp.receive': 'Receive', 'icmp.preamp': 'Preamp', 'icmp.filter': 'Filter', 'icmp.noiseNotch': 'Noise / Notch', 'icmp.autoNotch': 'Auto notch filter', 'icmp.clarifiers': 'RIT / ΔTX', 'icmp.ritHint': 'Wheel or ± to shift · Ctrl+←/→ shifts RIT when active',
|
||||
'agp.portDeselect': 'Port {letter} — click to deselect', 'agp.portSelect': 'Select on port {letter}', 'agp.online': 'online', 'agp.offline': 'offline', 'agp.close': 'Close', 'agp.connecting': 'Connecting…', 'agp.noAntennas': 'No antennas configured.', 'agp.filterOnHint': 'Showing antennas for {band} only — click to show all bands', 'agp.filterOffHint': 'Showing all antennas — click to show only the current band',
|
||||
'flxp.smartsdrRemote': 'SmartSDR remote control', 'flxp.offline': 'OFFLINE', 'flxp.waiting': 'Waiting for the FlexRadio… (set CAT to FlexRadio and connect)', 'flxp.transmit': 'Transmit', 'flxp.rfPower': 'RF Power', 'flxp.tunePwr': 'Tune Pwr', 'flxp.splitHint': 'Split: RX/TX on separate slices. ON creates a TX slice +1 kHz (CW) / +5 kHz (SSB) up, like SmartSDR.', 'flxp.sliceHint': 'Click to make this the active slice — frequency, mode, DSP and spot-clicks all follow it.', 'flxp.txSlice': 'This slice transmits', 'flxp.setTxSlice': 'Move TX to this slice (transmit here)', 'flxp.voxDly': 'VOX Dly', 'flxp.speed': 'Speed', 'flxp.pitch': 'Pitch', 'flxp.delay': 'Delay',
|
||||
'flxp.receiveActive': 'Receive (active slice)', 'flxp.muted': 'Muted — click to unmute', 'flxp.mute': 'Mute RX audio', 'flxp.filter': 'Filter', 'flxp.amplifier': 'Amplifier', 'flxp.ampInLine': 'Amplifier is in line (transmitting through PA).', 'flxp.ampBypassed': 'Amplifier bypassed (standby).', 'flxp.pgConnected': 'PowerGenius connected', 'flxp.pgOffline': 'PowerGenius offline', 'flxp.fan': 'Fan', 'flxp.fanStandard': 'Standard', 'flxp.fanContest': 'Contest', 'flxp.fanBroadcast': 'Broadcast', 'flxp.fault': 'FAULT', 'flxp.meters': 'Meters', 'flxp.voltage': 'VOLTAGE', 'flxp.paTemp': 'PA TEMP', 'flxp.txFilter': 'TX filter', 'flxp.micProfile': 'Mic profile', 'flxp.noMeters': "No meters yet — waiting for the radio's UDP stream…", 'flxp.amplifierHdr': 'AMPLIFIER',
|
||||
'icmp.spectrum': 'Spectrum', 'icmp.scopeFixed': 'Fixed — double-click / wheel to tune', 'icmp.scopeCenter': 'Center — follows VFO', 'icmp.scopeOff': 'Scope off', 'icmp.scopePanDown': 'Shift scope −50 kHz', 'icmp.scopePanUp': 'Shift scope +50 kHz', 'icmp.scopeCenterVfo': 'Center scope on the current frequency (±50 kHz)', 'icmp.notConnected': "Icom not connected. Enable the Icom CI-V backend in Settings → CAT and connect the radio's USB port.", 'icmp.refresh': 'Refresh', 'icmp.meters': 'Meters', 'icmp.transmit': 'Transmit', 'icmp.power': 'Power', 'icmp.mic': 'Mic', 'icmp.receive': 'Receive', 'icmp.preamp': 'Preamp', 'icmp.filter': 'Filter', 'icmp.noiseNotch': 'Noise / Notch', 'icmp.autoNotch': 'Auto notch filter', 'icmp.apf': 'Audio peak filter (CW)', 'icmp.clarifiers': 'RIT / ΔTX', 'icmp.ritHint': 'Wheel or ± to shift · Ctrl+←/→ shifts RIT when active', 'icmp.bandsAntenna': 'Bands & Antenna', 'icmp.antenna': 'Antenna', 'icmp.passband': 'Passband / Notch', 'icmp.pbtCenter': 'Center PBT', 'icmp.manualNotch': 'Manual notch — MN on, then set position', 'icmp.squelch': 'Squelch', 'icmp.powerOnHint': 'Power the radio ON (boots ~15 s)', 'icmp.powerOffHint': 'Power the radio OFF', 'icmp.powerOffConfirm': 'Switch the radio OFF?',
|
||||
'rst.clickToFill': 'Click to set RST tx from the signal',
|
||||
'qrz.openTitle': 'Open {call} on QRZ.com',
|
||||
// Misc panels/modals (alerts / send-spot / net / udp / filter / details)
|
||||
'altm.filterPh': 'Filter…', 'altm.noMatch': 'no match', 'altm.noneAll': 'none selected = ALL', 'altm.nSelected': '{n} selected', 'altm.giveName': 'Give the rule a name', 'altm.deleteConfirm': 'Delete alert "{name}"?', 'altm.title': 'Alert management', 'altm.desc': 'Alert when a spot matches a rule. Empty filters = ANY; the filters you set are ANDed (e.g. France + 20m = French stations on 20m).', 'altm.rules': 'Rules', 'altm.noRules': 'No rules yet — click +', 'altm.emailTo': 'Alert e-mail to', 'altm.selectOrCreate': 'Select or create a rule.', 'altm.tabDef': 'Definition', 'altm.tabCall': 'Call / DXCC', 'altm.tabBandMode': 'Band / Mode', 'altm.tabOrigin': 'Origin', 'altm.ruleName': 'Rule name', 'altm.alertEnabled': 'Alert enabled', 'altm.againAfter': 'Alert again after (min)', 'altm.againHint': '0 = once/session · -1 = always', 'altm.actions': 'Actions', 'altm.visual': 'Visual', 'altm.sound': 'Sound', 'altm.email': 'E-mail', 'altm.skipWorked': 'Skip calls already worked (same band + mode)', 'altm.callsigns': 'Callsigns (one per line, wildcards: IW3*, */P)', 'altm.countries': 'Countries (DXCC)', 'altm.continents': 'Continents', 'altm.bands': 'Bands', 'altm.modes': 'Modes', 'altm.spotterCall': 'Spotter callsign (wildcard)', 'altm.spotterCallPh': 'e.g. F* or DL1ABC', 'altm.spotterContinents': 'Spotter continents', 'altm.spotterCountries': 'Spotter countries', 'altm.delete': 'Delete', 'altm.saveRule': 'Save rule', 'altm.close': 'Close',
|
||||
'spm.callRequired': 'Callsign required', 'spm.freqRequired': 'Frequency (kHz) required', 'spm.title': 'Send DX Spot', 'spm.callsign': 'Callsign', 'spm.callPh': 'DX call', 'spm.frequency': 'Frequency (kHz)', 'spm.message': 'Message', 'spm.messagePh': 'e.g. CW · TNX QSO', 'spm.latestQsos': 'Latest QSOs', 'spm.spotSent': 'Spot sent ✓', 'spm.masterCluster': 'Master cluster', 'spm.cancel': 'Cancel', 'spm.sending': 'Sending…', 'spm.sendSpot': 'Send spot',
|
||||
'ncp.newNetPrompt': 'New NET name:', 'ncp.renamePrompt': 'Rename NET:', 'ncp.deleteConfirm': 'Delete NET "{name}" and its roster? This cannot be undone.', 'ncp.closeConfirm': "{n} station(s) still on the air will be dropped WITHOUT logging. Close anyway?", 'ncp.removeConfirm': "Remove {n} station(s) from this NET's roster?", 'ncp.colCallsign': 'Callsign', 'ncp.colName': 'Name', 'ncp.colTimeOn': 'Time on', 'ncp.colBand': 'Band', 'ncp.colMode': 'Mode', 'ncp.colComment': 'Comment', 'ncp.colCountry': 'Country', 'ncp.newNet': 'New NET', 'ncp.closeToSwitch': 'Close the NET to switch', 'ncp.selectNetTitle': 'Select a NET', 'ncp.selectNetOption': '— select a NET —', 'ncp.closeNet': 'Close NET', 'ncp.openNet': 'Open NET', 'ncp.rename': 'Rename', 'ncp.delete': 'Delete', 'ncp.netOpenBadge': 'NET OPEN', 'ncp.onAir': 'On air:', 'ncp.roster': 'Roster:', 'ncp.onAirActive': 'On air — active QSOs', 'ncp.activeHint': 'double-click → edit all fields · "Log & end" to save', 'ncp.logEndSelected': 'Log & end selected', 'ncp.netUsersRoster': 'NET users — roster', 'ncp.rosterHint': 'double-click → put on air', 'ncp.addContact': 'Add contact', 'ncp.remove': 'Remove', 'ncp.putOnAir': 'Put selected on air', 'ncp.addContactTitle': 'Add contact to NET', 'ncp.addContactDesc': "Saved in this NET's roster (reused next time you open it).", 'ncp.callsign': 'Callsign', 'ncp.search': 'Search', 'ncp.name': 'Name', 'ncp.country': 'Country', 'ncp.cancel': 'Cancel', 'ncp.saveInNet': 'Save in NET',
|
||||
'ncp.newNetPrompt': 'New NET name:', 'ncp.renamePrompt': 'Rename NET:', 'ncp.deleteConfirm': 'Delete NET "{name}" and its roster? This cannot be undone.', 'ncp.closeConfirm': "{n} station(s) still on the air will be dropped WITHOUT logging. Close anyway?", 'ncp.removeConfirm': "Remove {n} station(s) from this NET's roster?", 'ncp.colCallsign': 'Callsign', 'ncp.colName': 'Name', 'ncp.colTimeOn': 'Time on', 'ncp.colBand': 'Band', 'ncp.colMode': 'Mode', 'ncp.colComment': 'Comment', 'ncp.colCountry': 'Country', 'ncp.colDate': 'Date', 'ncp.workedBefore': 'Worked before', 'ncp.wbHint': 'Click a station (on air or roster) to see prior QSOs', 'ncp.wbNone': 'No prior QSO with', 'ncp.wbFirst': 'first', 'ncp.wbLast': 'last', 'ncp.wbResize': 'Drag to resize', 'ncp.newNet': 'New NET', 'ncp.closeToSwitch': 'Close the NET to switch', 'ncp.selectNetTitle': 'Select a NET', 'ncp.selectNetOption': '— select a NET —', 'ncp.closeNet': 'Close NET', 'ncp.openNet': 'Open NET', 'ncp.rename': 'Rename', 'ncp.delete': 'Delete', 'ncp.netOpenBadge': 'NET OPEN', 'ncp.onAir': 'On air:', 'ncp.roster': 'Roster:', 'ncp.onAirActive': 'On air — active QSOs', 'ncp.activeHint': 'double-click → edit all fields · "Log & end" to save', 'ncp.logEndSelected': 'Log & end selected', 'ncp.netUsersRoster': 'NET users — roster', 'ncp.rosterHint': 'double-click → put on air', 'ncp.addContact': 'Add contact', 'ncp.remove': 'Remove', 'ncp.putOnAir': 'Put selected on air', 'ncp.addContactTitle': 'Add contact to NET', 'ncp.addContactDesc': "Saved in this NET's roster (reused next time you open it).", 'ncp.callsign': 'Callsign', 'ncp.search': 'Search', 'ncp.name': 'Name', 'ncp.country': 'Country', 'ncp.cancel': 'Cancel', 'ncp.saveInNet': 'Save in NET',
|
||||
'udpp.svcWsjtLabel': 'WSJT-X / JTDX / MSHV', 'udpp.svcWsjtHint': 'Auto-logs FT8/FT4/etc. QSOs and fills the entry callsign live.', 'udpp.svcAdifLabel': 'ADIF message (JTAlert, GridTracker)', 'udpp.svcAdifHint': 'Receives a single ADIF record per packet and logs it.', 'udpp.svcN1mmLabel': 'N1MM Logger+ (contest XML)', 'udpp.svcN1mmHint': 'Receives contest QSOs as XML messages.', 'udpp.svcRemoteLabel': 'Remote callsign (DXHunter, custom)', 'udpp.svcRemoteHint': 'A short text packet containing just a callsign — fills the entry field.', 'udpp.svcDbLabel': 'ADIF Message', 'udpp.svcDbHint': 'Sends the ADIF of every QSO you log to a remote listener (Cloudlog UDP, N1MM, …).', 'udpp.svcPstLabel': 'PstRotator frequency', 'udpp.svcPstHint': 'Sends the rig frequency as <PST><FREQUENCY> whenever it changes — set PstRotatorAz tracker to DXLog.net (default port 12040).', 'udpp.svcN1mmRadioLabel': 'N1MM RadioInfo (freq + mode)', 'udpp.svcN1mmRadioHint': 'Broadcasts the rig frequency/mode as N1MM Logger+ RadioInfo XML on every change — consumed by PstRotator (N1MM tracker) and many other tools.', 'udpp.deleteConfirm': 'Delete this UDP connection?', 'udpp.loading': 'Loading…', 'udpp.intro': 'UDP connections let OpsLog talk to other ham radio software. Inbound connections receive QSOs or callsigns and update the logbook live; outbound connections notify other apps when you log a QSO locally. Enable multicast to share a port with another listener without conflict — required for the typical WSJT-X 2237 setup.', 'udpp.inboundTitle': 'Inbound — OpsLog listens', 'udpp.outboundTitle': 'Outbound — OpsLog sends', 'udpp.reloadAll': 'Reload all', 'udpp.reloadHint': 'Restarts every enabled listener after a manual change.', 'udpp.add': 'Add', 'udpp.noConnection': 'No connection.', 'udpp.unnamed': '(unnamed)', 'udpp.dialogTitle': '{action} {direction} connection', 'udpp.new': 'New', 'udpp.edit': 'Edit', 'udpp.directionInbound': 'inbound', 'udpp.directionOutbound': 'outbound', 'udpp.name': 'Name', 'udpp.namePhInbound': 'WSJT-X log', 'udpp.namePhOutbound': 'Cloudlog notify', 'udpp.serviceType': 'Service type', 'udpp.port': 'Port', 'udpp.multicast': 'Multicast', 'udpp.multicastGroup': 'Multicast group', 'udpp.multicastHint': 'Use the same group address as the sending app. WSJT-X default is 224.0.0.1.', 'udpp.destinationIp': 'Destination IP', 'udpp.enabled': 'Enabled', 'udpp.cancel': 'Cancel', 'udpp.save': 'Save',
|
||||
'fltb.fCallsign': 'Callsign', 'fltb.fDate': 'Date / time (UTC)', 'fltb.fEndDate': 'End date / time', 'fltb.fBand': 'Band', 'fltb.fRxBand': 'RX band', 'fltb.fMode': 'Mode', 'fltb.fSubmode': 'Submode', 'fltb.fFreq': 'Frequency (Hz)', 'fltb.fRxFreq': 'RX frequency (Hz)', 'fltb.fRstSent': 'RST sent', 'fltb.fRstRcvd': 'RST rcvd', 'fltb.fName': 'Name', 'fltb.fQth': 'QTH', 'fltb.fAddress': 'Address', 'fltb.fEmail': 'E-mail', 'fltb.fGrid': 'Grid', 'fltb.fCountry': 'Country', 'fltb.fState': 'State', 'fltb.fCounty': 'County', 'fltb.fDxcc': 'DXCC #', 'fltb.fContinent': 'Continent', 'fltb.fCqz': 'CQ zone', 'fltb.fItuz': 'ITU zone', 'fltb.fIota': 'IOTA', 'fltb.fSota': 'SOTA ref', 'fltb.fPota': 'POTA ref', 'fltb.fWwff': 'WWFF ref', 'fltb.fRig': 'Rig', 'fltb.fAntenna': 'Antenna', 'fltb.fQslSent': 'QSL sent', 'fltb.fQslRcvd': 'QSL rcvd', 'fltb.fQslVia': 'QSL via', 'fltb.fLotwSent': 'LoTW sent', 'fltb.fLotwRcvd': 'LoTW rcvd', 'fltb.fEqslSent': 'eQSL sent', 'fltb.fEqslRcvd': 'eQSL rcvd', 'fltb.fQrzUpload': 'QRZ upload status', 'fltb.fClublogUpload': 'ClubLog upload status', 'fltb.fHrdlogUpload': 'HRDLog upload status', 'fltb.fContestId': 'Contest ID', 'fltb.fSerialRcvd': 'Serial rcvd', 'fltb.fSerialSent': 'Serial sent', 'fltb.fPropMode': 'Propagation mode', 'fltb.fSatellite': 'Satellite', 'fltb.fMyCallsign': 'My callsign', 'fltb.fOperator': 'Operator', 'fltb.fOwnerCallsign': 'Owner callsign', 'fltb.fMyGrid': 'My grid', 'fltb.fMyCountry': 'My country', 'fltb.fMyState': 'My state', 'fltb.fMyCounty': 'My county', 'fltb.fMyIota': 'My IOTA', 'fltb.fMySota': 'My SOTA ref', 'fltb.fMyPota': 'My POTA ref', 'fltb.fMyWwff': 'My WWFF ref', 'fltb.fMyStreet': 'My street', 'fltb.fMyCity': 'My city', 'fltb.fMyPostal': 'My postal code', 'fltb.fMyRig': 'My rig', 'fltb.fMyAntenna': 'My antenna', 'fltb.fTxPower': 'TX power (W)', 'fltb.fComment': 'Comment', 'fltb.fNotes': 'Notes', 'fltb.opEq': 'equals (=)', 'fltb.opNe': 'not equal (≠)', 'fltb.opContains': 'contains', 'fltb.opStartsWith': 'starts with', 'fltb.opEndsWith': 'ends with', 'fltb.opGt': 'greater than (>)', 'fltb.opLt': 'less than (<)', 'fltb.opGe': 'greater or equal (≥)', 'fltb.opLe': 'less or equal (≤)', 'fltb.opEmpty': 'is empty', 'fltb.opNotEmpty': 'is not empty', 'fltb.title': 'QSO filter', 'fltb.match': 'Match', 'fltb.all': 'ALL (AND)', 'fltb.any': 'ANY (OR)', 'fltb.loadPreset': 'Load preset…', 'fltb.noConditions': 'No conditions — the list shows all QSOs. Add one below.', 'fltb.where': 'WHERE', 'fltb.valuePh': 'value', 'fltb.remove': 'Remove', 'fltb.addCondition': 'Add condition', 'fltb.presetNamePh': 'Preset name…', 'fltb.savePreset': 'Save preset', 'fltb.clear': 'Clear', 'fltb.cancel': 'Cancel', 'fltb.applyClose': 'Apply & close',
|
||||
'detp.propAS': 'Aircraft Scatter', 'detp.propAUR': 'Aurora', 'detp.propAUE': 'Aurora-E', 'detp.propBS': 'Back Scatter', 'detp.propEME': 'Earth-Moon-Earth', 'detp.propES': 'Sporadic E', 'detp.propFAI': 'Field Aligned Irregularities', 'detp.propF2': 'F2 Reflection', 'detp.propGWAVE': 'Ground Wave', 'detp.propINTERNET': 'Internet-assisted', 'detp.propION': 'Ionoscatter', 'detp.propLOS': 'Line of Sight', 'detp.propMS': 'Meteor Scatter', 'detp.propRPT': 'Terrestrial / atmospheric repeater', 'detp.propRS': 'Rain Scatter', 'detp.propSAT': 'Satellite', 'detp.propTEP': 'Trans-Equatorial', 'detp.propTR': 'Tropospheric Ducting', 'detp.pathShort': 'Short Path', 'detp.pathLong': 'Long Path', 'detp.pathGrayline': 'Grayline', 'detp.pathOther': 'Other', 'detp.tabStats': 'Stats', 'detp.tabInfo': 'Info', 'detp.tabAwards': 'Awards', 'detp.tabMy': 'My', 'detp.tabExtended': 'Extended', 'detp.statePref': 'State / pref', 'detp.county': 'County', 'detp.prefix': 'Prefix', 'detp.cqZone': 'CQ zone', 'detp.ituZone': 'ITU zone', 'detp.dxcc': 'DXCC #', 'detp.azimuthLp': 'Azimuth LP', 'detp.distanceSp': 'Distance SP', 'detp.distanceLp': 'Distance LP', 'detp.address': 'Address', 'detp.qslMessage': 'QSL message', 'detp.qslVia': 'QSL via', 'detp.detected': 'Detected — this contact will count for:', 'detp.azimuth': 'Azimuth (°)', 'detp.elevation': 'Elevation (°)', 'detp.txPower': 'TX power (W)', 'detp.satelliteMode': 'Satellite mode', 'detp.antPath': 'Ant. path', 'detp.propagation': 'Propagation', 'detp.rig': 'Rig', 'detp.antenna': 'Antenna', 'detp.satName': 'Satellite name', 'detp.contestId': 'Contest ID', 'detp.rcvdExchangePh': 'rcvd exchange', 'detp.sentExchangePh': 'sent exchange', 'detp.contactedEmail': 'Contacted email',
|
||||
@@ -205,10 +214,10 @@ const en: Dict = {
|
||||
'awrp.remove': 'Remove', 'awrp.searchLabel': 'Search {label}…', 'awrp.searching': 'Searching…', 'awrp.noMatch': 'No match.', 'awrp.noMatchDxcc': 'No match for this DXCC.',
|
||||
'awrs.group': 'Group', 'awrs.sub': 'Sub', 'awrs.pickReference': '← pick a reference', 'awrs.add': 'Add', 'awrs.enterCallsignFirst': 'Enter a callsign first', 'awrs.noRefsAdded': 'No references added yet', 'awrs.references': 'References', 'awrs.autoMatchTitle': 'The {field} field is {code} — this award counts it automatically', 'awrs.fromField': 'from {field}', 'awrs.autoClickToAdd': 'auto — click to add', 'awrs.search': 'Search…', 'awrs.addUnlistedTitle': "Add this reference even though it isn't in the list yet (new / unlisted)", 'awrs.addPrefix': '+ Add', 'awrs.unlisted': '(unlisted)', 'awrs.searching': 'Searching…', 'awrs.typeToSearch': 'Type 2+ chars to search', 'awrs.enterCallsignOrSearch': 'Enter a callsign, or type to search.', 'awrs.noRefsForEntity': 'No references for this entity.', 'awrs.noResults': 'No results.', 'awrs.downloadLists': 'Download reference lists in the Awards panel → Import data.',
|
||||
'awp.awards': 'Awards', 'awp.editAwards': 'Edit awards', 'awp.rescanTitle': 'Re-pull the logbook and recompute (picks up new LoTW/QRZ confirmations)', 'awp.rescan': 'Rescan', 'awp.selectAward': 'Select an award…', 'awp.of': 'of', 'awp.computing': 'Computing…', 'awp.noData': 'No data', 'awp.worked': 'worked', 'awp.confirmed': 'confirmed', 'awp.validated': 'validated', 'awp.ofConfirmed': 'of {total} · {pct}% confirmed', 'awp.byBand': 'By band (confirmed / worked)', 'awp.filterReferences': 'Filter references…', 'awp.filterAll': 'All', 'awp.filterWkd': 'Wkd', 'awp.filterNotWkd': 'Not wkd', 'awp.filterWkdNotCfmd': 'Wkd not cfmd', 'awp.refs': 'refs', 'awp.missingRefsTitle': "Contacts in this award's scope (right DXCC/band/mode) but with no reference — they're excluded until you add it", 'awp.missingRefs': 'Missing refs', 'awp.gridView': 'Grid view', 'awp.listView': 'List view', 'awp.statistics': 'Statistics', 'awp.statistic': 'Statistic', 'awp.total': 'Total', 'awp.grand': 'Grand', 'awp.ref': 'Ref', 'awp.description': 'Description', 'awp.cellTitle': '{ref} · {band} — click to view QSOs', 'awp.name': 'Name', 'awp.groupCol': 'Group', 'awp.status': 'Status', 'awp.bands': 'Bands', 'awp.missing': '— missing', 'awp.contactsMissingRef': 'contacts missing a reference', 'awp.recomputeTitle': "Recompute now — contacts you've fixed drop off the list", 'awp.refresh': 'Refresh', 'awp.missingScopeHelp': "In this award's scope (DXCC / band / mode / dates) but no reference was found — so they don't count yet. Sort by a column, tick the matching contacts, then assign the reference below.", 'awp.orClickRow': '(Or click a row to open the QSO.)', 'awp.selectedArrow': '{n} selected →', 'awp.chooseReference': 'Choose a reference to assign…', 'awp.assignToSelected': 'Assign to {n} selected', 'awp.scanning': 'Scanning…', 'awp.noGaps': 'No gaps found. (Missing-reference detection applies to awards scoped to a DXCC entity — e.g. DDFM, WAS, RAC, WAJA.)', 'awp.dateUtc': 'Date (UTC)', 'awp.callsign': 'Callsign', 'awp.band': 'Band', 'awp.mode': 'Mode', 'awp.country': 'Country', 'awp.qthNote': 'QTH / Note', 'awp.stations': 'stations', 'awp.contactsWithoutRef': 'contacts without a reference', 'awp.assignedMsg': 'Assigned {code}@{ref} to {n} contact(s).', 'awp.loading': 'Loading…', 'awp.noQsos': 'No QSOs.',
|
||||
'awed.addCountry': 'Add country…', 'awed.exportedTo': 'Awards exported to:\n{path}', 'awed.importedMsg': 'Imported {awards} award(s) and {references} reference(s).', 'awed.awardManagement': 'Award management', 'awed.searchAwards': 'Search awards…', 'awed.newAward': 'New award', 'awed.clickToDismiss': 'Click to dismiss', 'awed.selectOrCreate': 'Select or create an award.', 'awed.tabInfo': 'Award info', 'awed.tabType': 'Award type', 'awed.tabConfirmation': 'Confirmation', 'awed.tabReferences': 'References', 'awed.awardName': 'Award name', 'awed.valid': 'Valid', 'awed.deleteAward': 'Delete award', 'awed.description': 'Description', 'awed.awardUrl': 'Award URL', 'awed.referenceUrl': 'Reference URL', 'awed.validFrom': 'Valid from', 'awed.validTo': 'Valid to', 'awed.dxccFilter': 'DXCC filter', 'awed.validBands': 'Valid bands (empty = all)', 'awed.emission': 'Emission (empty = all)', 'awed.validModes': 'Valid modes (empty = all)', 'awed.awardType': 'Award type', 'awed.allowMultiple': 'Allow multiple references on a single QSO', 'awed.dynamicRefs': 'Dynamic references (not predefined — any value counts, like POTA)', 'awed.qsoParams': 'QSO parameters (used by QSOFIELDS / REFERENCE types)', 'awed.searchInField': 'Search in field', 'awed.matchBy': 'Match by', 'awed.exactMatch': 'Exact match (else search reference inside the field)', 'awed.patternRegex': 'Pattern (regex)', 'awed.patternPlaceholder': 'group 1 = reference (for match-by pattern / dynamic)', 'awed.leadingString': 'Leading string', 'awed.trailingString': 'Trailing string', 'awed.additionalSearches': 'Additional searches', 'awed.orAlsoMatch': '— also match the reference if any of these hit', 'awed.addOr': 'Add OR', 'awed.orSearchIn': 'OR — search in', 'awed.exact': 'exact', 'awed.removeOrSearch': 'Remove this OR search', 'awed.orPatternPlaceholder': 'regex — group 1 = reference (e.g. \\b(\\d{2})\\d{3}\\b for postal → dept)', 'awed.prefixPlaceholder': 'prefix (D)', 'awed.prefixTitle': 'Prepended to each found reference, e.g. 74 → D74', 'awed.confirmationLabel': 'Confirmation (worked → confirmed)', 'awed.validationLabel': 'Validation (confirmed → validated)', 'awed.grantCodes': 'Grant codes', 'awed.exportCreditGranted': 'Export award in ADIF credit_granted field', 'awed.resetDefaults': 'Reset to defaults', 'awed.exportTitle': 'Export all award definitions + reference lists to a JSON backup', 'awed.export': 'Export…', 'awed.importTitle': 'Import an award bundle (definitions + reference lists)', 'awed.import': 'Import…', 'awed.cancel': 'Cancel', 'awed.save': 'Save', 'awed.populatedMsg': 'Populated {n} built-in references.', 'awed.newRefCodePrompt': 'New reference code:', 'awed.importedRefsMsg': 'Imported {n} references.', 'awed.referenceCount': 'Reference count:', 'awed.applyPreset': 'Apply preset…', 'awed.pasteCsv': 'Paste / CSV', 'awed.populateBuiltinTitle': 'Replace with the shipped built-in list (DXCC entities, French departments, …)', 'awed.populateBuiltin': 'Populate built-in', 'awed.updateOnline': 'Update online', 'awed.add': 'Add', 'awed.onePerLine': 'One reference per line:', 'awed.replacesList': '(comma/semicolon/tab). Replaces the whole list.', 'awed.import2': 'Import', 'awed.search': 'Search…', 'awed.searching': 'Searching…', 'awed.tooManyItems': 'Too many items ({total}). Please refine search (type 2+ characters).', 'awed.noReferences': 'No references.', 'awed.selectReference': 'Select a reference, or Add / import a list.', 'awed.group': 'Group', 'awed.subgroup': 'Subgroup', 'awed.perRefRegex': 'optional per-reference regex', 'awed.score': 'Score', 'awed.bonus': 'Bonus', 'awed.grid': 'Grid', 'awed.saveReference': 'Save reference',
|
||||
'awed.addCountry': 'Add country…', 'awed.exportedTo': 'Awards exported to:\n{path}', 'awed.importedMsg': 'Imported {awards} award(s) and {references} reference(s).', 'awed.awardManagement': 'Award management', 'awed.searchAwards': 'Search awards…', 'awed.newAward': 'New award', 'awed.clickToDismiss': 'Click to dismiss', 'awed.selectOrCreate': 'Select or create an award.', 'awed.tabInfo': 'Award info', 'awed.tabType': 'Award type', 'awed.tabConfirmation': 'Confirmation', 'awed.tabReferences': 'References', 'awed.awardName': 'Award name', 'awed.valid': 'Valid', 'awed.deleteAward': 'Delete award', 'awed.description': 'Description', 'awed.awardUrl': 'Award URL', 'awed.refDisplay': 'Column shows', 'awed.refDisplayRef': 'Reference', 'awed.refDisplayName': 'Description / name', 'awed.refDisplayBoth': 'Both (ref — name)', 'awed.referenceUrl': 'Reference URL', 'awed.validFrom': 'Valid from', 'awed.validTo': 'Valid to', 'awed.dxccFilter': 'DXCC filter', 'awed.validBands': 'Valid bands (empty = all)', 'awed.emission': 'Emission (empty = all)', 'awed.validModes': 'Valid modes (empty = all)', 'awed.awardType': 'Award type', 'awed.allowMultiple': 'Allow multiple references on a single QSO', 'awed.dynamicRefs': 'Dynamic references (not predefined — any value counts, like POTA)', 'awed.qsoParams': 'QSO parameters (used by QSOFIELDS / REFERENCE types)', 'awed.searchInField': 'Search in field', 'awed.matchBy': 'Match by', 'awed.exactMatch': 'Exact match (else search reference inside the field)', 'awed.patternRegex': 'Pattern (regex)', 'awed.patternPlaceholder': 'group 1 = reference (for match-by pattern / dynamic)', 'awed.leadingString': 'Leading string', 'awed.trailingString': 'Trailing string', 'awed.additionalSearches': 'Fallback searches', 'awed.orAlsoMatch': '— tried in order, only if nothing matched yet; first hit wins', 'awed.addOr': 'Add OR', 'awed.orSearchIn': 'OR — search in', 'awed.exact': 'exact', 'awed.removeOrSearch': 'Remove this OR search', 'awed.orPatternPlaceholder': 'regex — group 1 = reference (e.g. \\b(\\d{2})\\d{3}\\b for postal → dept)', 'awed.prefixPlaceholder': 'prefix (D)', 'awed.prefixTitle': 'Prepended to each found reference, e.g. 74 → D74', 'awed.confirmationLabel': 'Confirmation (worked → confirmed)', 'awed.validationLabel': 'Validation (confirmed → validated)', 'awed.grantCodes': 'Grant codes', 'awed.exportCreditGranted': 'Export award in ADIF credit_granted field', 'awed.resetDefaults': 'Reset to defaults', 'awed.exportTitle': 'Export all award definitions + reference lists to a JSON backup', 'awed.export': 'Export…', 'awed.importTitle': 'Import an award bundle (definitions + reference lists)', 'awed.import': 'Import…', 'awed.cancel': 'Cancel', 'awed.save': 'Save', 'awed.populatedMsg': 'Populated {n} built-in references.', 'awed.newRefCodePrompt': 'New reference code:', 'awed.importedRefsMsg': 'Imported {n} references.', 'awed.referenceCount': 'Reference count:', 'awed.applyPreset': 'Apply preset…', 'awed.pasteCsv': 'Paste / CSV', 'awed.populateBuiltinTitle': 'Replace with the shipped built-in list (DXCC entities, French departments, …)', 'awed.populateBuiltin': 'Populate built-in', 'awed.updateOnline': 'Update online', 'awed.add': 'Add', 'awed.onePerLine': 'One reference per line:', 'awed.replacesList': '(comma/semicolon/tab). Replaces the whole list.', 'awed.import2': 'Import', 'awed.search': 'Search…', 'awed.searching': 'Searching…', 'awed.tooManyItems': 'Too many items ({total}). Please refine search (type 2+ characters).', 'awed.noReferences': 'No references.', 'awed.selectReference': 'Select a reference, or Add / import a list.', 'awed.group': 'Group', 'awed.subgroup': 'Subgroup', 'awed.perRefRegex': 'optional per-reference regex', 'awed.score': 'Score', 'awed.bonus': 'Bonus', 'awed.grid': 'Grid', 'awed.saveReference': 'Save reference',
|
||||
// QSO modals (context menu / bulk edit / QSL manager / QSO edit)
|
||||
'qctx.selected': '{n} QSO(s) selected', 'qctx.fixCountry': 'Fix country & zones from cty.dat', 'qctx.updateQrz': 'Update from QRZ.com', 'qctx.updateClublog': 'Update from ClubLog (exceptions)', 'qctx.sendQslEmail': 'Send OpsLog QSL by e-mail', 'qctx.sendRecording': 'Send recording by e-mail', 'qctx.bulkEdit': 'Bulk edit field… ({n})', 'qctx.exportSelectedAdif': 'Export selected to ADIF ({n})', 'qctx.exportFilteredAdif': 'Export filtered view to ADIF (no limit)', 'qctx.exportSelectedCabrillo': 'Export selected to Cabrillo ({n})', 'qctx.exportFilteredCabrillo': 'Export filtered view to Cabrillo (no limit)', 'qctx.sendTo': 'Send to {name}', 'qctx.delete': 'Delete {n} QSO(s)…',
|
||||
'bulk.fLotwSent': 'LoTW sent', 'bulk.fLotwRcvd': 'LoTW received', 'bulk.fEqslSent': 'eQSL sent', 'bulk.fEqslRcvd': 'eQSL received', 'bulk.fQslSent': 'Paper QSL sent', 'bulk.fQslRcvd': 'Paper QSL received', 'bulk.fQrzUpload': 'QRZ.com upload', 'bulk.fClublogUpload': 'Club Log upload', 'bulk.fHrdlogUpload': 'HRDLog upload', 'bulk.fQslVia': 'QSL via', 'bulk.fStationCall': 'Station callsign', 'bulk.fOperator': 'Operator', 'bulk.fMyGrid': 'My grid', 'bulk.fMyAntenna': 'My antenna', 'bulk.fMyRig': 'My rig', 'bulk.fMyStreet': 'My street', 'bulk.fMyCity': 'My city', 'bulk.fMyPostal': 'My postal code', 'bulk.fMyCountry': 'My country', 'bulk.fMyState': 'My state', 'bulk.fMyCounty': 'My county', 'bulk.fMyIota': 'My IOTA', 'bulk.fMySota': 'My SOTA ref', 'bulk.fMyPota': 'My POTA ref', 'bulk.fMyWwff': 'My WWFF ref', 'bulk.fMySig': 'My SIG', 'bulk.fMySigInfo': 'My SIG info', 'bulk.fComment': 'Comment', 'bulk.fNotes': 'Notes', 'bulk.fRig': 'Rig (contacted)', 'bulk.fAnt': 'Antenna (contacted)', 'bulk.statusY': 'Y — Yes / uploaded', 'bulk.statusN': 'N — No', 'bulk.statusR': 'R — Requested', 'bulk.statusI': 'I — Ignore', 'bulk.statusBlank': '(blank — clear)', 'bulk.groupQsl': 'QSL / upload', 'bulk.groupMyStation': 'My station', 'bulk.groupMisc': 'Misc', 'bulk.title': 'Bulk edit field', 'bulk.desc': 'Set one field on the {n} selected QSO(s). This overwrites the current value — there is no undo.', 'bulk.fieldLabel': 'Field', 'bulk.valueLabel': 'Value', 'bulk.clearPlaceholder': 'leave empty to clear the field', 'bulk.willSet': 'Will set', 'bulk.blank': '(blank)', 'bulk.onQsos': 'on {n} QSO(s).', 'bulk.cancel': 'Cancel', 'bulk.applyTo': 'Apply to {n}',
|
||||
'bulk.fLotwSent': 'LoTW sent', 'bulk.fLotwRcvd': 'LoTW received', 'bulk.fEqslSent': 'eQSL sent', 'bulk.fEqslRcvd': 'eQSL received', 'bulk.fQslSent': 'Paper QSL sent', 'bulk.fQslRcvd': 'Paper QSL received', 'bulk.fQrzUpload': 'QRZ.com upload', 'bulk.fClublogUpload': 'Club Log upload', 'bulk.fHrdlogUpload': 'HRDLog upload', 'bulk.fQslVia': 'QSL via', 'bulk.fStationCall': 'Station callsign', 'bulk.fOperator': 'Operator', 'bulk.fMyGrid': 'My grid', 'bulk.fMyAntenna': 'My antenna', 'bulk.fMyRig': 'My rig', 'bulk.fMyStreet': 'My street', 'bulk.fMyCity': 'My city', 'bulk.fMyPostal': 'My postal code', 'bulk.fMyCountry': 'My country', 'bulk.fMyState': 'My state', 'bulk.fMyCounty': 'My county', 'bulk.fMyIota': 'My IOTA', 'bulk.fMySota': 'My SOTA ref', 'bulk.fMyPota': 'My POTA ref', 'bulk.fMyWwff': 'My WWFF ref', 'bulk.fMySig': 'My SIG', 'bulk.fMySigInfo': 'My SIG info', 'bulk.fContestId': 'Contest ID', 'bulk.fSrxString': 'Serial rcvd (exchange)', 'bulk.fStxString': 'Serial sent (exchange)', 'bulk.fArrlSect': 'ARRL section', 'bulk.fPrecedence': 'Precedence', 'bulk.fClass': 'Class', 'bulk.fPropMode': 'Propagation mode', 'bulk.fSatName': 'Satellite name', 'bulk.fSatMode': 'Satellite mode', 'bulk.fPotaRef': 'POTA ref', 'bulk.fSotaRef': 'SOTA ref', 'bulk.fWwffRef': 'WWFF ref', 'bulk.fIota': 'IOTA', 'bulk.fSig': 'SIG', 'bulk.fSigInfo': 'SIG info', 'bulk.fComment': 'Comment', 'bulk.fNotes': 'Notes', 'bulk.fRig': 'Rig (contacted)', 'bulk.fAnt': 'Antenna (contacted)', 'bulk.statusY': 'Y — Yes / uploaded', 'bulk.statusN': 'N — No', 'bulk.statusR': 'R — Requested', 'bulk.statusI': 'I — Ignore', 'bulk.statusBlank': '(blank — clear)', 'bulk.groupQsl': 'QSL / upload', 'bulk.groupMyStation': 'My station', 'bulk.groupContacted': 'Contacted station', 'bulk.groupContest': 'Contest', 'bulk.groupPropagation': 'Propagation', 'bulk.groupMisc': 'Misc', 'bulk.title': 'Bulk edit field', 'bulk.desc': 'Set one field on the {n} selected QSO(s). This overwrites the current value — there is no undo.', 'bulk.fieldLabel': 'Field', 'bulk.valueLabel': 'Value', 'bulk.clearPlaceholder': 'leave empty to clear the field', 'bulk.willSet': 'Will set', 'bulk.blank': '(blank)', 'bulk.onQsos': 'on {n} QSO(s).', 'bulk.cancel': 'Cancel', 'bulk.applyTo': 'Apply to {n}',
|
||||
'qslm.leave': '— leave —', 'qslm.yes': 'Yes', 'qslm.no': 'No', 'qslm.requested': 'Requested', 'qslm.ignore': 'Ignore', 'qslm.viaBureau': 'Bureau', 'qslm.viaDirect': 'Direct', 'qslm.viaElectronic': 'Electronic', 'qslm.svcPota': 'POTA hunter log', 'qslm.svcPaper': 'Paper QSL', 'qslm.sentRequested': 'Requested', 'qslm.sentNo': 'No', 'qslm.sentQueued': 'Queued', 'qslm.sentYes': 'Yes (already sent)', 'qslm.sentInvalid': 'Invalid', 'qslm.sentBlank': '— blank —', 'qslm.qsoUpdated': '{n} QSO updated.', 'qslm.service': 'Service', 'qslm.callsign': 'Callsign', 'qslm.callsignScopeTitle': "Upload/download is scoped to this callsign (Force station callsign, else the active profile's call)", 'qslm.syncHunterLog': 'Sync hunter log', 'qslm.onlyMyCallTitle': "Only sync hunts made under your active profile's callsign — skip QSOs you made under another call (e.g. XV9Q, NQ2H) that aren't in this logbook", 'qslm.onlyMyCall': 'Only my profile callsign', 'qslm.addMissingTitle': "Insert hunter-log contacts whose callsign isn't in your log yet (callsign/date/band/mode/park)", 'qslm.addMissing': 'Add not-found QSOs to my log', 'qslm.potaToken': 'Token in Settings → External services → POTA.', 'qslm.callsignPlaceholder': 'e.g. DL1ABC', 'qslm.search': 'Search', 'qslm.paperHint': 'Find a callsign, then set QSL sent/received + via + date on the selection.', 'qslm.sentStatus': 'Sent status', 'qslm.selectRequired': 'Select required', 'qslm.potaSummaryShort': '{updated} updated · {added} added · {already} already · {unmatched} unmatched', 'qslm.potaOtherCall': ' · {n} other call', 'qslm.paperCount': '{total} QSO · {selected} selected', 'qslm.filter': 'Filter', 'qslm.filterAll': 'All', 'qslm.filterNew': 'New (any)', 'qslm.filterNewDxcc': 'New DXCC', 'qslm.filterNewBand': 'New band', 'qslm.filterNewSlot': 'New slot', 'qslm.results': 'Results', 'qslm.log': 'Log', 'qslm.confCount': '{shown} / {total} confirmation(s)', 'qslm.foundCount': '{found} found · {selected} selected', 'qslm.paperEmpty': 'Search a callsign to list its QSOs, then set QSL status below.', 'qslm.potaEmpty': 'Click "Sync hunter log" to fetch your pota.app log and stamp park references.', 'qslm.potaSyncing': 'Syncing with pota.app…', 'qslm.potaSummary': '{updated} QSO updated · {added} added to log · {already} already tagged · {unmatched} unmatched (of {fetched} hunter-log entries).', 'qslm.potaSkipped': ' {n} hunt(s) made under another callsign were skipped', 'qslm.potaKeptOnly': ' (kept only {call})', 'qslm.potaRescan': 'Rescan the POTA award to count the new references.', 'qslm.thActivator': 'Activator', 'qslm.thDateUtc': 'Date UTC', 'qslm.thBand': 'Band', 'qslm.thPark': 'Park', 'qslm.thWhyUnmatched': 'Why unmatched', 'qslm.openToFix': 'Open this QSO to fix it', 'qslm.starting': 'starting…', 'qslm.working': 'working…', 'qslm.noNewConf': 'No new confirmations.', 'qslm.noConfMatch': 'No confirmations match this filter.', 'qslm.thCallsign': 'Callsign', 'qslm.thMode': 'Mode', 'qslm.thCountry': 'Country', 'qslm.thNew': 'New?', 'qslm.newDxcc': 'NEW DXCC', 'qslm.newBand': 'NEW BAND', 'qslm.newSlot': 'NEW SLOT', 'qslm.uploadEmpty': 'Pick a service + sent status, then "Select required".', 'qslm.qslReceived': 'QSL received', 'qslm.qslRcvdDateTitle': 'QSL received date', 'qslm.qslSent': 'QSL sent', 'qslm.qslSentDateTitle': 'QSL sent date', 'qslm.via': 'Via', 'qslm.notes': 'Notes', 'qslm.notesPlaceholder': 'e.g. paid 3€', 'qslm.comment': 'Comment', 'qslm.commentPlaceholder': 'comment', 'qslm.applyToSelected': 'Apply to {n} selected', 'qslm.downloadTitle': 'Fetch confirmations from the service and update received status', 'qslm.downloadConf': 'Download confirmations', 'qslm.downloadRangeTitle': 'How far back to download', 'qslm.sinceLast': 'Since last download', 'qslm.sinceDate': 'Since date…', 'qslm.sinceAll': 'All', 'qslm.sinceDateTitleQrz': 'QRZ: filters by QSO date (no server-side received-date filter)', 'qslm.sinceDateTitleLotw': 'LoTW: confirmations received since this date', 'qslm.addNotFoundTitle': "Insert confirmed QSOs that aren't in your log yet", 'qslm.addNotFound': 'Add not-found', 'qslm.uploadTo': 'Upload {n} to {service}',
|
||||
'qedit.qslDash': '—', 'qedit.qslYes': 'Yes', 'qedit.qslNo': 'No', 'qedit.qslRequested': 'Requested', 'qedit.qslIgnore': 'Ignore', 'qedit.statusModified': 'Modified', 'qedit.confQslPaper': 'QSL (paper)', 'qedit.callsignRequired': 'Callsign required', 'qedit.lookupError': 'Lookup: {msg}', 'qedit.title': 'Edit QSO', 'qedit.editFieldsFor': 'Edit fields for QSO #{id}', 'qedit.tabQsoInfo': 'QSO Info', 'qedit.tabContact': "Contact's details", 'qedit.tabAwards': 'Award Refs', 'qedit.tabQsl': 'QSL Info', 'qedit.tabContest': 'Contest', 'qedit.tabSat': 'Sat / Prop', 'qedit.tabMyStation': 'My Station', 'qedit.tabMoreAdif': 'More ADIF', 'qedit.tabAdifFields': 'ADIF fields', 'qedit.callsign': 'Callsign', 'qedit.fetchTitle': 'Look up this callsign (QRZ.com / HamQTH) and refresh name, country, grid, zones…', 'qedit.fetch': 'Fetch', 'qedit.name': 'Name', 'qedit.band': 'Band', 'qedit.rxBand': 'RX Band', 'qedit.mode': 'Mode', 'qedit.country': 'Country', 'qedit.dxccTitle': 'DXCC entity # — set automatically from Country', 'qedit.txFreq': 'TX Freq', 'qedit.rxFreq': 'RX Freq', 'qedit.qsoStart': 'QSO Start (UTC)', 'qedit.qsoEnd': 'QSO End (UTC)', 'qedit.grid': 'Grid', 'qedit.comment': 'Comment', 'qedit.note': 'Note', 'qedit.county': 'County', 'qedit.state': 'State', 'qedit.continent': 'Continent', 'qedit.address': 'Address', 'qedit.email': 'E-mail address', 'qedit.qslMsg': 'QSL Msg', 'qedit.qslVia': 'QSL Via', 'qedit.computedAuto': 'Computed (automatic)', 'qedit.computedHint': "Derived from this QSO's fields (DXCC, zones, prefix, notes…). Not editable here.", 'qedit.noneYet': 'None yet.', 'qedit.manageConf': 'Manage Confirmation', 'qedit.sent': 'Sent', 'qedit.received': 'Received', 'qedit.dateSent': 'Date sent', 'qedit.dateReceived': 'Date received', 'qedit.via': 'Via', 'qedit.viaPlaceholder': 'BUREAU / DIRECT / manager…', 'qedit.qslPanelHint': 'Pick a channel, edit it — the table on the right updates live. Everything is written when you click', 'qedit.saveChanges': 'Save changes', 'qedit.thType': 'Type', 'qedit.contestId': 'Contest ID', 'qedit.rcvdExchange': 'rcvd exchange', 'qedit.sentExchange': 'sent exchange', 'qedit.check': 'Check', 'qedit.precedence': 'Precedence', 'qedit.arrlSection': 'ARRL section', 'qedit.propMode': 'Propagation mode', 'qedit.satName': 'Satellite name', 'qedit.satMode': 'Satellite mode', 'qedit.antAz': 'Antenna AZ (°)', 'qedit.antEl': 'Antenna EL (°)', 'qedit.antPath': 'Antenna path', 'qedit.myStationHint': 'These override the active station profile for this QSO only.', 'qedit.stationCallsign': 'Station callsign', 'qedit.operator': 'Operator', 'qedit.myGrid': 'My grid', 'qedit.gridExt': 'Grid ext', 'qedit.cqZone': 'CQ zone', 'qedit.ituZone': 'ITU zone', 'qedit.sotaRef': 'SOTA ref', 'qedit.potaRef': 'POTA ref', 'qedit.street': 'Street', 'qedit.city': 'City', 'qedit.postal': 'Postal', 'qedit.rig': 'Rig', 'qedit.antenna': 'Antenna', 'qedit.specialActivity': 'Special activity', 'qedit.sigInfo': 'SIG info', 'qedit.wwffRef': 'WWFF ref', 'qedit.region': 'Region', 'qedit.powerWeather': 'Power & space weather', 'qedit.rxPower': 'RX power (W)', 'qedit.distance': 'Distance (km)', 'qedit.aIndex': 'A index', 'qedit.kIndex': 'K index', 'qedit.identityClubs': 'Identity & clubs', 'qedit.contactedOp': 'Contacted op', 'qedit.formerCall': 'Former call (EQ_CALL)', 'qedit.class': 'Class', 'qedit.flagsCredits': 'Flags & credits', 'qedit.qsoComplete': 'QSO complete', 'qedit.qsoRandom': 'QSO random', 'qedit.silentKey': 'Silent key', 'qedit.creditGranted': 'Credit granted', 'qedit.creditSubmitted': 'Credit submitted', 'qedit.myStationAdif': 'My station (ADIF)', 'qedit.myName': 'My name', 'qedit.myWwffRef': 'My WWFF ref', 'qedit.myArrlSect': 'My ARRL sect', 'qedit.mySig': 'My SIG', 'qedit.mySigInfo': 'My SIG info', 'qedit.myDarcDok': 'My DARC DOK', 'qedit.myVuccGrids': 'My VUCC grids', 'qedit.delete': 'Delete', 'qedit.cancel': 'Cancel', 'qedit.saving': 'Saving…',
|
||||
// Grids column headers (recent / worked-before / cluster)
|
||||
@@ -218,6 +227,8 @@ const en: Dict = {
|
||||
};
|
||||
|
||||
const fr: Dict = {
|
||||
'prop.title': 'Propagation', 'prop.geomag': 'Géomag', 'prop.refresh': 'Actualiser la météo spatiale',
|
||||
'lotw.userTip': 'Utilisateur LoTW — dernier upload {date} (il y a {days} j)',
|
||||
'menu.file': 'Fichier', 'menu.edit': 'Édition', 'menu.view': 'Affichage', 'menu.tools': 'Outils',
|
||||
'file.import': 'Importer ADIF…', 'file.export': 'Exporter ADIF…', 'file.exporting': 'Export…',
|
||||
'file.exportCabrillo': 'Exporter Cabrillo…', 'file.deleteAll': 'Supprimer tous les QSO…', 'file.exit': 'Quitter',
|
||||
@@ -226,6 +237,7 @@ const fr: Dict = {
|
||||
'tools.qslManager': 'Gestionnaire QSL…', 'tools.qslDesigner': 'Créateur de carte QSL…',
|
||||
'tools.winkeyer': 'Manipulateur CW WinKeyer', 'tools.dvk': 'Manipulateur vocal numérique', 'tools.cwDecoder': 'Décodeur CW (audio RX)',
|
||||
'tools.net': 'Contrôle de NET', 'tools.alerts': 'Gestion des alertes…', 'tools.contest': 'Mode contest',
|
||||
'alert.tuneHint': 'Cliquer pour accorder la radio sur ce spot (fréq + mode) et remplir l\'indicatif', 'alert.dismiss': 'Fermer', 'alert.pending': '{n} alerte(s) de spot récente(s) — cliquer pour voir', 'alert.noneShort': 'Aucune alerte récente', 'alert.recent': 'Alertes récentes', 'alert.clear': 'Effacer',
|
||||
'menu.help': 'Aide', 'help.about': 'À propos d\'OpsLog', 'tools.duplicates': 'Trouver les doublons…',
|
||||
'dup.title': 'Trouver les doublons', 'dup.scanning': 'Analyse du journal…', 'dup.none': 'Aucun doublon trouvé. 🎉',
|
||||
'dup.hint': 'Chaque groupe est le même contact enregistré plusieurs fois (indicatif + bande + mode). Le premier (le plus ancien) est laissé décoché ; coche ceux à supprimer.',
|
||||
@@ -245,7 +257,8 @@ const fr: Dict = {
|
||||
'lang.english': 'English', 'lang.french': 'Français',
|
||||
'settings.language': 'Langue', 'settings.languageHint': "Langue de l'interface.",
|
||||
'settings.theme': 'Thème', 'settings.themeHint': "Thème de couleur de l'interface.",
|
||||
'theme.auto': 'Auto (système)', 'theme.light-warm': 'Clair chaud', 'theme.dark-warm': 'Sombre chaud',
|
||||
'theme.auto': 'Auto (système)', 'theme.light-warm': 'Clair chaud', 'theme.light-cool': 'Clair froid',
|
||||
'theme.light-sage': 'Clair sauge', 'theme.dim-slate': 'Ardoise tamisé', 'theme.dark-warm': 'Sombre chaud',
|
||||
'theme.dark-graphite': 'Sombre graphite', 'theme.high-contrast': 'Contraste élevé',
|
||||
'nav.user': 'Configuration utilisateur', 'nav.software': 'Configuration logicielle', 'nav.hardware': 'Configuration matérielle', 'nav.lists': 'Listes',
|
||||
'sec.station': 'Informations station', 'sec.profiles': 'Profils', 'sec.operating': "Conditions d'opération",
|
||||
@@ -320,9 +333,13 @@ const fr: Dict = {
|
||||
'rot.hint': "OpsLog envoie des commandes UDP à PstRotator. Active l'écouteur UDP de PstRotator (Setup → Communication → UDP) avant de tester.",
|
||||
'extsvc.hint': "Envoie les QSO enregistrés vers des carnets en ligne. Chaque service upload automatiquement à chaque nouveau QSO si activé ; le délai est propre à chaque service (immédiat, ou 1–2 min pour corriger un QSO mal saisi avant).",
|
||||
'hw.ultrabeam': 'Antenne (Ultrabeam)', 'hw.audioVoice': 'Périphériques audio & manipulateur vocal',
|
||||
'cat.enable': 'Activer le CAT', 'cat.backend': 'Backend', 'cat.optOmnirig': 'OmniRig (tout poste, COM Windows)', 'cat.optFlex': 'FlexRadio / SmartSDR (natif)', 'cat.optIcom': 'Icom CI-V (USB série)', 'cat.optTci': 'TCI (Expert Electronics / SunSDR)',
|
||||
'cat.omnirigRig': 'Slot OmniRig', 'cat.flexIp': 'IP FlexRadio', 'cat.port': 'Port', 'cat.flexSpots': 'Afficher les spots cluster sur le panadapter', 'cat.flexSpotsHint': "(les spots du cluster DX d'OpsLog apparaissent sur la radio, expirent après 30 min)",
|
||||
'cat.icomPort': 'Port CI-V Icom', 'cat.selectCom': 'Choisir un port COM', 'cat.noPorts': 'Aucun port trouvé', 'cat.baud': 'Débit (baud)', 'cat.civAddr': 'Adresse CI-V (hex)', 'cat.civHint': 'IC-7610 = 98, IC-7300 = 94, IC-9700 = A2, IC-705 = A4. Mets « CI-V USB Echo Back » sur OFF et fais correspondre le débit CI-V sur le poste.',
|
||||
'cat.enable': 'Activer le CAT', 'cat.backend': 'Backend', 'cat.optOmnirig': 'OmniRig (tout poste, COM Windows)', 'cat.optFlex': 'FlexRadio / SmartSDR (natif)', 'cat.optIcom': 'Icom CI-V (USB série)', 'cat.optIcomNet': 'Icom CI-V (réseau / remote)', 'cat.optTci': 'TCI (Expert Electronics / SunSDR)',
|
||||
'cat.icomNetHost': 'IP / nom d\'hôte du poste', 'cat.icomNetUser': 'Utilisateur réseau (ID)', 'cat.icomNetPass': 'Mot de passe réseau',
|
||||
'cat.icomNetHint': "Se connecte directement au serveur LAN intégré du poste — sans RS-BA1 ni Remote Utility (ferme-les d'abord). Utilise l'ID/mot de passe Network User1 configurés dans le menu Network du poste. Un poste en veille est allumé automatiquement.",
|
||||
'cat.icomNetAudio': 'Diffuser l’audio RX par le réseau (expérimental)',
|
||||
'cat.icomNetAudioHint': 'Écoute l’audio reçu du poste sur ton périphérique d’écoute (Réglages → Audio) via le flux 50003. Expérimental — le format audio reste à vérifier sur le poste ; laisse désactivé si le contrôle se comporte mal.',
|
||||
'cat.omnirigRig': 'Slot OmniRig', 'cat.flexIp': 'IP FlexRadio', 'cat.port': 'Port', 'cat.flexSpots': 'Afficher les spots cluster sur le panadapter', 'cat.flexSpotsHint': "(les spots du cluster DX d'OpsLog apparaissent sur la radio, expirent après 30 min)", 'cat.flexDecodeSpots': 'Afficher les décodes WSJT-X sur le panadapter', 'cat.flexDecodeSpotsHint': '(stations FT8/FT4 entendues via ton flux UDP WSJT-X/JTDX, un spot par station)', 'cat.flexDecodeSecs': 'Affichage pendant', 'cat.flexDecodeSecsHint': 'secondes avant retrait d\'une station',
|
||||
'cat.icomPort': 'Port CI-V Icom', 'cat.selectCom': 'Choisir un port COM', 'cat.noPorts': 'Aucun port trouvé', 'cat.baud': 'Débit (baud)', 'cat.icomModel': 'Modèle de poste', 'cat.icomModelOther': 'Autre (adresse perso)', 'cat.civAddr': 'Adresse CI-V (hex)', 'cat.civHint': 'Choisis ton modèle pour fixer l’adresse CI-V automatiquement (ou « Autre » et saisis-la). Mets « CI-V USB Echo Back » sur OFF et fais correspondre le débit CI-V sur le poste.',
|
||||
'cat.tciHost': 'Hôte TCI', 'cat.tciHint': 'Active le serveur TCI dans ExpertSDR2/EESDR (Options → TCI). Port par défaut 40001. Utilise 127.0.0.1 si OpsLog tourne sur le même PC.', 'cat.tciSpots': 'Afficher les spots cluster sur le panorama', 'cat.tciSpotsHint': "(les spots du cluster DX d'OpsLog apparaissent sur le panadapter SDR)",
|
||||
'cat.pollMs': 'Intervalle de poll (ms)', 'cat.delayMs': 'Délai CAT (ms)', 'cat.digitalDefault': 'Mode numérique par défaut (quand le poste indique DIG)', 'cat.modeBeforeFreq': 'Régler le mode avant la fréquence', 'cat.modeBeforeFreqHint': '(anciens postes qui perdent le mode après un changement de bande)',
|
||||
'cat.omnirigHint': "Configure d'abord ton poste (port COM, débit, modèle) dans l'interface de réglages d'OmniRig. OpsLog lira le slot Rig que tu choisis ici. Mets le délai CAT au-dessus de 0 si ton poste perd des commandes envoyées coup sur coup (certains anciens Kenwood/Yaesu). OmniRig ne rapporte qu'un « DIG » générique pour les modes numériques — le mode numérique par défaut est le mode précis qu'OpsLog affichera (et loggera).",
|
||||
@@ -330,6 +347,7 @@ const fr: Dict = {
|
||||
'cat.rotatorOk': "Paquet envoyé — l'antenne devrait tourner vers 0° (nord). Sinon, vérifie l'hôte/port PstRotator et que l'écouteur UDP de PstRotator est activé.",
|
||||
'cat.ubOk': "Connecté — l'Ultrabeam a répondu avec une trame de statut.",
|
||||
'es.autoUpload': 'Envoi automatique à chaque nouveau QSO', 'es.uploadTiming': "Moment de l'envoi", 'es.immediate': 'Immédiat', 'es.delayed': 'Différé (1–2 min, permet de corriger les erreurs)', 'es.onClose': "À la fermeture (par lot)", 'es.testConn': 'Tester la connexion', 'es.testing': 'Test…', 'es.password': 'Mot de passe', 'es.apiKey': 'Clé API', 'es.forceCall': "Forcer l'indicatif de station", 'es.accountEmail': 'E-mail du compte', 'es.logbookCall': 'Indicatif du carnet',
|
||||
'lotw.usersTitle': 'Liste des utilisateurs LoTW', 'lotw.usersHint': "Télécharge la liste publique ARRL des utilisateurs LoTW + leur date de dernier upload, pour afficher un badge LoTW coloré à côté d'un indicatif (vert < 1 semaine · ambre 1–4 semaines · rouge > 30 j).", 'lotw.usersDownload': 'Télécharger la liste LoTW', 'lotw.usersDownloading': 'Téléchargement…', 'lotw.usersLoaded': '{n} utilisateurs chargés · maj {date}', 'lotw.usersNone': 'Pas encore téléchargée — le badge reste caché tant que ce n’est pas fait.',
|
||||
'hw.connecting': 'Connexion…', 'hw.testConn': 'Tester la connexion', 'hw.sending': 'Envoi…', 'hw.testRotator': 'Tester (pointer vers 0°)',
|
||||
'prof.deleteConfirm': 'Supprimer le profil « {name} » ? Tous ses réglages seront perdus.', 'prof.dupPrompt': 'Nom du nouveau profil (copie de « {name} ») :', 'prof.dupSuffix': '{name} Copie', 'prof.newPrompt': 'Nom du nouveau profil :', 'prof.newDefault': 'Nouveau profil',
|
||||
'prof.hint': "Bascule entre tes identités d'opération (maison / portable / SOTA / contest). Choisis un profil ici, puis édite ses champs dans les autres sections (Informations station, etc.) — les changements sont enregistrés sur le profil sélectionné.", 'prof.active': 'ACTIF', 'prof.duplicate': 'Dupliquer', 'prof.delete': 'Supprimer', 'prof.profileName': 'Nom du profil',
|
||||
@@ -372,24 +390,24 @@ const fr: Dict = {
|
||||
'wkp.breakIn': 'Break-in', 'wkp.breakInHint': "Le manipulateur interne de la radio n'émet que si le break-in est SEMI ou FULL. OFF génère la tonalité mais reste en réception.", 'wkp.bkOff': 'OFF', 'wkp.bkOffWarn': "n'émettra pas — mettre SEMI ou FULL",
|
||||
'wkp.autoCallHint': "Clique une macro CQ (dont le texte contient CQ) pour la réémettre en boucle — message, pause, répétition — jusqu'à envoyer une autre macro (ex. un report), appuyer sur Stop ou ESC. Les macros non-CQ ne sont émises qu'une fois.", 'wkp.autoCall': 'Appel auto', 'wkp.gap': 'pause', 'wkp.gapHint': 'Secondes à attendre après le message avant de réémettre', 'wkp.loopHint': 'clique une macro CQ pour la boucler', 'wkp.macroN': 'Macro {n}',
|
||||
'dvkp.voiceKeyer': 'Manipulateur vocal', 'dvkp.stop': 'Stop', 'dvkp.disable': 'Désactiver le manipulateur vocal', 'dvkp.noMsgPre': 'Aucun message enregistré. Ouvre', 'dvkp.settingsPath': 'Réglages → Périphériques audio & manipulateur vocal', 'dvkp.noMsgPost': 'pour enregistrer F1–F6.', 'dvkp.transmit': 'Émettre F{slot}{label} ({dur}s)', 'dvkp.empty': 'F{slot} — vide', 'dvkp.message': 'message',
|
||||
'agp.portDeselect': 'Port {letter} — clic pour désélectionner', 'agp.portSelect': 'Sélectionner sur le port {letter}', 'agp.online': 'en ligne', 'agp.offline': 'hors ligne', 'agp.close': 'Fermer', 'agp.connecting': 'Connexion…', 'agp.noAntennas': 'Aucune antenne configurée.',
|
||||
'flxp.smartsdrRemote': 'Contrôle à distance SmartSDR', 'flxp.offline': 'HORS LIGNE', 'flxp.waiting': 'En attente du FlexRadio… (règle le CAT sur FlexRadio et connecte)', 'flxp.transmit': 'Émission', 'flxp.rfPower': 'Puissance RF', 'flxp.tunePwr': 'Puiss. TUNE', 'flxp.splitHint': 'Split : RX/TX sur des slices séparées. ON crée une slice TX +1 kHz (CW) / +5 kHz (SSB) au-dessus, comme SmartSDR.', 'flxp.voxDly': 'Délai VOX', 'flxp.speed': 'Vitesse', 'flxp.pitch': 'Tonalité', 'flxp.delay': 'Délai',
|
||||
'flxp.receiveActive': 'Réception (slice active)', 'flxp.muted': 'Coupé — clic pour rétablir', 'flxp.mute': "Couper l'audio RX", 'flxp.filter': 'Filtre', 'flxp.amplifier': 'Amplificateur', 'flxp.ampInLine': 'Amplificateur en ligne (émission via le PA).', 'flxp.ampBypassed': 'Amplificateur en bypass (standby).', 'flxp.pgConnected': 'PowerGenius connecté', 'flxp.pgOffline': 'PowerGenius hors ligne', 'flxp.fan': 'Ventilo', 'flxp.fanStandard': 'Standard', 'flxp.fanContest': 'Contest', 'flxp.fanBroadcast': 'Diffusion', 'flxp.fault': 'DÉFAUT', 'flxp.meters': 'Mesures', 'flxp.noMeters': 'Aucune mesure — en attente du flux UDP de la radio…', 'flxp.amplifierHdr': 'AMPLIFICATEUR',
|
||||
'icmp.spectrum': 'Spectre', 'icmp.scopeFixed': 'Fixe — double-clic / molette pour accorder', 'icmp.scopeCenter': 'Centré — suit le VFO', 'icmp.scopeOff': 'Scope éteint', 'icmp.notConnected': 'Icom non connecté. Active le backend CI-V Icom dans Réglages → CAT et connecte le port USB de la radio.', 'icmp.refresh': 'Rafraîchir', 'icmp.meters': 'Mesures', 'icmp.transmit': 'Émission', 'icmp.power': 'Puissance', 'icmp.mic': 'Micro', 'icmp.receive': 'Réception', 'icmp.preamp': 'Préampli', 'icmp.filter': 'Filtre', 'icmp.noiseNotch': 'Bruit / Notch', 'icmp.autoNotch': 'Filtre notch auto', 'icmp.clarifiers': 'RIT / ΔTX', 'icmp.ritHint': 'Molette ou ± pour décaler · Ctrl+←/→ décale le RIT si actif',
|
||||
'agp.portDeselect': 'Port {letter} — clic pour désélectionner', 'agp.portSelect': 'Sélectionner sur le port {letter}', 'agp.online': 'en ligne', 'agp.offline': 'hors ligne', 'agp.close': 'Fermer', 'agp.connecting': 'Connexion…', 'agp.noAntennas': 'Aucune antenne configurée.', 'agp.filterOnHint': 'Antennes du {band} uniquement — clic pour afficher toutes les bandes', 'agp.filterOffHint': 'Toutes les antennes affichées — clic pour n’afficher que la bande courante',
|
||||
'flxp.smartsdrRemote': 'Contrôle à distance SmartSDR', 'flxp.offline': 'HORS LIGNE', 'flxp.waiting': 'En attente du FlexRadio… (règle le CAT sur FlexRadio et connecte)', 'flxp.transmit': 'Émission', 'flxp.rfPower': 'Puissance RF', 'flxp.tunePwr': 'Puiss. TUNE', 'flxp.splitHint': 'Split : RX/TX sur des slices séparées. ON crée une slice TX +1 kHz (CW) / +5 kHz (SSB) au-dessus, comme SmartSDR.', 'flxp.sliceHint': 'Cliquer pour rendre cette slice active — fréquence, mode, DSP et clics de spot la suivent tous.', 'flxp.txSlice': 'Cette slice émet', 'flxp.setTxSlice': 'Déplacer le TX sur cette slice (émettre ici)', 'flxp.voxDly': 'Délai VOX', 'flxp.speed': 'Vitesse', 'flxp.pitch': 'Tonalité', 'flxp.delay': 'Délai',
|
||||
'flxp.receiveActive': 'Réception (slice active)', 'flxp.muted': 'Coupé — clic pour rétablir', 'flxp.mute': "Couper l'audio RX", 'flxp.filter': 'Filtre', 'flxp.amplifier': 'Amplificateur', 'flxp.ampInLine': 'Amplificateur en ligne (émission via le PA).', 'flxp.ampBypassed': 'Amplificateur en bypass (standby).', 'flxp.pgConnected': 'PowerGenius connecté', 'flxp.pgOffline': 'PowerGenius hors ligne', 'flxp.fan': 'Ventilo', 'flxp.fanStandard': 'Standard', 'flxp.fanContest': 'Contest', 'flxp.fanBroadcast': 'Diffusion', 'flxp.fault': 'DÉFAUT', 'flxp.meters': 'Mesures', 'flxp.voltage': 'TENSION', 'flxp.paTemp': 'TEMP PA', 'flxp.txFilter': 'Filtre TX', 'flxp.micProfile': 'Profil micro', 'flxp.noMeters': 'Aucune mesure — en attente du flux UDP de la radio…', 'flxp.amplifierHdr': 'AMPLIFICATEUR',
|
||||
'icmp.spectrum': 'Spectre', 'icmp.scopeFixed': 'Fixe — double-clic / molette pour accorder', 'icmp.scopeCenter': 'Centré — suit le VFO', 'icmp.scopeOff': 'Scope éteint', 'icmp.scopePanDown': 'Décaler le scope −50 kHz', 'icmp.scopePanUp': 'Décaler le scope +50 kHz', 'icmp.scopeCenterVfo': 'Centrer le scope sur la fréquence actuelle (±50 kHz)', 'icmp.notConnected': 'Icom non connecté. Active le backend CI-V Icom dans Réglages → CAT et connecte le port USB de la radio.', 'icmp.refresh': 'Rafraîchir', 'icmp.meters': 'Mesures', 'icmp.transmit': 'Émission', 'icmp.power': 'Puissance', 'icmp.mic': 'Micro', 'icmp.receive': 'Réception', 'icmp.preamp': 'Préampli', 'icmp.filter': 'Filtre', 'icmp.noiseNotch': 'Bruit / Notch', 'icmp.autoNotch': 'Filtre notch auto', 'icmp.apf': 'Filtre de pic audio (CW)', 'icmp.clarifiers': 'RIT / ΔTX', 'icmp.ritHint': 'Molette ou ± pour décaler · Ctrl+←/→ décale le RIT si actif', 'icmp.bandsAntenna': 'Bandes & Antenne', 'icmp.antenna': 'Antenne', 'icmp.passband': 'Passe-bande / Notch', 'icmp.pbtCenter': 'Centrer PBT', 'icmp.manualNotch': 'Notch manuel — active MN, puis règle la position', 'icmp.squelch': 'Squelch', 'icmp.powerOnHint': 'Allumer la radio (démarre en ~15 s)', 'icmp.powerOffHint': 'Éteindre la radio', 'icmp.powerOffConfirm': 'Éteindre la radio ?',
|
||||
'rst.clickToFill': 'Clic pour remplir le RST tx depuis le signal',
|
||||
'qrz.openTitle': 'Ouvrir {call} sur QRZ.com',
|
||||
'altm.filterPh': 'Filtrer…', 'altm.noMatch': 'aucun résultat', 'altm.noneAll': 'aucune sélection = TOUT', 'altm.nSelected': '{n} sélectionné(s)', 'altm.giveName': 'Donne un nom à la règle', 'altm.deleteConfirm': "Supprimer l'alerte « {name} » ?", 'altm.title': 'Gestion des alertes', 'altm.desc': 'Alerte quand un spot correspond à une règle. Filtres vides = TOUT ; les filtres définis sont combinés par ET (ex. France + 20m = stations françaises sur 20m).', 'altm.rules': 'Règles', 'altm.noRules': 'Aucune règle — clique sur +', 'altm.emailTo': "E-mail d'alerte à", 'altm.selectOrCreate': 'Sélectionne ou crée une règle.', 'altm.tabDef': 'Définition', 'altm.tabCall': 'Indicatif / DXCC', 'altm.tabBandMode': 'Bande / Mode', 'altm.tabOrigin': 'Origine', 'altm.ruleName': 'Nom de la règle', 'altm.alertEnabled': 'Alerte activée', 'altm.againAfter': 'Réalerter après (min)', 'altm.againHint': '0 = une fois/session · -1 = toujours', 'altm.actions': 'Actions', 'altm.visual': 'Visuel', 'altm.sound': 'Son', 'altm.email': 'E-mail', 'altm.skipWorked': 'Ignorer les indicatifs déjà contactés (même bande + mode)', 'altm.callsigns': 'Indicatifs (un par ligne, jokers : IW3*, */P)', 'altm.countries': 'Pays (DXCC)', 'altm.continents': 'Continents', 'altm.bands': 'Bandes', 'altm.modes': 'Modes', 'altm.spotterCall': 'Indicatif du spotteur (joker)', 'altm.spotterCallPh': 'ex. F* ou DL1ABC', 'altm.spotterContinents': 'Continents du spotteur', 'altm.spotterCountries': 'Pays du spotteur', 'altm.delete': 'Supprimer', 'altm.saveRule': 'Enregistrer la règle', 'altm.close': 'Fermer',
|
||||
'spm.callRequired': 'Indicatif requis', 'spm.freqRequired': 'Fréquence (kHz) requise', 'spm.title': 'Envoyer un spot DX', 'spm.callsign': 'Indicatif', 'spm.callPh': 'Indicatif DX', 'spm.frequency': 'Fréquence (kHz)', 'spm.message': 'Message', 'spm.messagePh': 'ex. CW · TNX QSO', 'spm.latestQsos': 'Derniers QSO', 'spm.spotSent': 'Spot envoyé ✓', 'spm.masterCluster': 'Cluster maître', 'spm.cancel': 'Annuler', 'spm.sending': 'Envoi…', 'spm.sendSpot': 'Envoyer le spot',
|
||||
'ncp.newNetPrompt': 'Nom du nouveau NET :', 'ncp.renamePrompt': 'Renommer le NET :', 'ncp.deleteConfirm': 'Supprimer le NET « {name} » et son répertoire ? Cette action est irréversible.', 'ncp.closeConfirm': "{n} station(s) encore en l'air seront retirées SANS être enregistrées. Fermer quand même ?", 'ncp.removeConfirm': 'Retirer {n} station(s) du répertoire de ce NET ?', 'ncp.colCallsign': 'Indicatif', 'ncp.colName': 'Nom', 'ncp.colTimeOn': 'Heure début', 'ncp.colBand': 'Bande', 'ncp.colMode': 'Mode', 'ncp.colComment': 'Commentaire', 'ncp.colCountry': 'Pays', 'ncp.newNet': 'Nouveau NET', 'ncp.closeToSwitch': 'Ferme le NET pour changer', 'ncp.selectNetTitle': 'Sélectionne un NET', 'ncp.selectNetOption': '— sélectionner un NET —', 'ncp.closeNet': 'Fermer le NET', 'ncp.openNet': 'Ouvrir le NET', 'ncp.rename': 'Renommer', 'ncp.delete': 'Supprimer', 'ncp.netOpenBadge': 'NET OUVERT', 'ncp.onAir': "En l'air :", 'ncp.roster': 'Répertoire :', 'ncp.onAirActive': "En l'air — QSO actifs", 'ncp.activeHint': 'double-clic → éditer tous les champs · « Logger & terminer » pour enregistrer', 'ncp.logEndSelected': 'Logger & terminer la sélection', 'ncp.netUsersRoster': 'Membres du NET — répertoire', 'ncp.rosterHint': "double-clic → mettre en l'air", 'ncp.addContact': 'Ajouter un contact', 'ncp.remove': 'Retirer', 'ncp.putOnAir': "Mettre la sélection en l'air", 'ncp.addContactTitle': 'Ajouter un contact au NET', 'ncp.addContactDesc': 'Enregistré dans le répertoire de ce NET (réutilisé à la prochaine ouverture).', 'ncp.callsign': 'Indicatif', 'ncp.search': 'Rechercher', 'ncp.name': 'Nom', 'ncp.country': 'Pays', 'ncp.cancel': 'Annuler', 'ncp.saveInNet': 'Enregistrer dans le NET',
|
||||
'ncp.newNetPrompt': 'Nom du nouveau NET :', 'ncp.renamePrompt': 'Renommer le NET :', 'ncp.deleteConfirm': 'Supprimer le NET « {name} » et son répertoire ? Cette action est irréversible.', 'ncp.closeConfirm': "{n} station(s) encore en l'air seront retirées SANS être enregistrées. Fermer quand même ?", 'ncp.removeConfirm': 'Retirer {n} station(s) du répertoire de ce NET ?', 'ncp.colCallsign': 'Indicatif', 'ncp.colName': 'Nom', 'ncp.colTimeOn': 'Heure début', 'ncp.colBand': 'Bande', 'ncp.colMode': 'Mode', 'ncp.colComment': 'Commentaire', 'ncp.colCountry': 'Pays', 'ncp.colDate': 'Date', 'ncp.workedBefore': 'Déjà contacté', 'ncp.wbHint': 'Cliquer une station (on air ou roster) pour voir les QSO précédents', 'ncp.wbNone': 'Aucun QSO précédent avec', 'ncp.wbFirst': 'premier', 'ncp.wbLast': 'dernier', 'ncp.wbResize': 'Glisser pour redimensionner', 'ncp.newNet': 'Nouveau NET', 'ncp.closeToSwitch': 'Ferme le NET pour changer', 'ncp.selectNetTitle': 'Sélectionne un NET', 'ncp.selectNetOption': '— sélectionner un NET —', 'ncp.closeNet': 'Fermer le NET', 'ncp.openNet': 'Ouvrir le NET', 'ncp.rename': 'Renommer', 'ncp.delete': 'Supprimer', 'ncp.netOpenBadge': 'NET OUVERT', 'ncp.onAir': "En l'air :", 'ncp.roster': 'Répertoire :', 'ncp.onAirActive': "En l'air — QSO actifs", 'ncp.activeHint': 'double-clic → éditer tous les champs · « Logger & terminer » pour enregistrer', 'ncp.logEndSelected': 'Logger & terminer la sélection', 'ncp.netUsersRoster': 'Membres du NET — répertoire', 'ncp.rosterHint': "double-clic → mettre en l'air", 'ncp.addContact': 'Ajouter un contact', 'ncp.remove': 'Retirer', 'ncp.putOnAir': "Mettre la sélection en l'air", 'ncp.addContactTitle': 'Ajouter un contact au NET', 'ncp.addContactDesc': 'Enregistré dans le répertoire de ce NET (réutilisé à la prochaine ouverture).', 'ncp.callsign': 'Indicatif', 'ncp.search': 'Rechercher', 'ncp.name': 'Nom', 'ncp.country': 'Pays', 'ncp.cancel': 'Annuler', 'ncp.saveInNet': 'Enregistrer dans le NET',
|
||||
'udpp.svcWsjtLabel': 'WSJT-X / JTDX / MSHV', 'udpp.svcWsjtHint': "Logue automatiquement les QSO FT8/FT4/etc. et remplit l'indicatif de saisie en direct.", 'udpp.svcAdifLabel': 'Message ADIF (JTAlert, GridTracker)', 'udpp.svcAdifHint': 'Reçoit un seul enregistrement ADIF par paquet et le logue.', 'udpp.svcN1mmLabel': 'N1MM Logger+ (XML contest)', 'udpp.svcN1mmHint': 'Reçoit les QSO de contest sous forme de messages XML.', 'udpp.svcRemoteLabel': 'Indicatif distant (DXHunter, personnalisé)', 'udpp.svcRemoteHint': 'Un court paquet texte contenant juste un indicatif — remplit le champ de saisie.', 'udpp.svcDbLabel': "ADIF Message", 'udpp.svcDbHint': "Envoie l'ADIF de chaque QSO enregistré vers un écouteur distant (Cloudlog UDP, N1MM…).", 'udpp.svcPstLabel': 'Fréquence PstRotator', 'udpp.svcPstHint': "Envoie la fréquence du poste en <PST><FREQUENCY> à chaque changement — règle le tracker de PstRotatorAz sur DXLog.net (port 12040 par défaut).", 'udpp.svcN1mmRadioLabel': 'N1MM RadioInfo (fréq + mode)', 'udpp.svcN1mmRadioHint': "Diffuse la fréquence/mode du poste en XML RadioInfo N1MM Logger+ à chaque changement — lu par PstRotator (tracker N1MM) et beaucoup d'autres outils.", 'udpp.deleteConfirm': 'Supprimer cette connexion UDP ?', 'udpp.loading': 'Chargement…', 'udpp.intro': "Les connexions UDP permettent à OpsLog de dialoguer avec d'autres logiciels radioamateurs. Les connexions entrantes reçoivent des QSO ou des indicatifs et mettent le journal à jour en direct ; les connexions sortantes notifient d'autres apps quand tu enregistres un QSO localement. Active le multicast pour partager un port avec un autre écouteur sans conflit — nécessaire pour la config WSJT-X 2237 classique.", 'udpp.inboundTitle': 'Entrant — OpsLog écoute', 'udpp.outboundTitle': 'Sortant — OpsLog envoie', 'udpp.reloadAll': 'Tout recharger', 'udpp.reloadHint': 'Redémarre chaque écouteur activé après une modification manuelle.', 'udpp.add': 'Ajouter', 'udpp.noConnection': 'Aucune connexion.', 'udpp.unnamed': '(sans nom)', 'udpp.dialogTitle': '{action} connexion {direction}', 'udpp.new': 'Nouvelle', 'udpp.edit': 'Modifier', 'udpp.directionInbound': 'entrante', 'udpp.directionOutbound': 'sortante', 'udpp.name': 'Nom', 'udpp.namePhInbound': 'Log WSJT-X', 'udpp.namePhOutbound': 'Notification Cloudlog', 'udpp.serviceType': 'Type de service', 'udpp.port': 'Port', 'udpp.multicast': 'Multicast', 'udpp.multicastGroup': 'Groupe multicast', 'udpp.multicastHint': "Utilise la même adresse de groupe que l'app émettrice. Le défaut WSJT-X est 224.0.0.1.", 'udpp.destinationIp': 'IP de destination', 'udpp.enabled': 'Activé', 'udpp.cancel': 'Annuler', 'udpp.save': 'Enregistrer',
|
||||
'fltb.fCallsign': 'Indicatif', 'fltb.fDate': 'Date / heure (UTC)', 'fltb.fEndDate': 'Date / heure de fin', 'fltb.fBand': 'Bande', 'fltb.fRxBand': 'Bande RX', 'fltb.fMode': 'Mode', 'fltb.fSubmode': 'Sous-mode', 'fltb.fFreq': 'Fréquence (Hz)', 'fltb.fRxFreq': 'Fréquence RX (Hz)', 'fltb.fRstSent': 'RST envoyé', 'fltb.fRstRcvd': 'RST reçu', 'fltb.fName': 'Nom', 'fltb.fQth': 'QTH', 'fltb.fAddress': 'Adresse', 'fltb.fEmail': 'E-mail', 'fltb.fGrid': 'Locator', 'fltb.fCountry': 'Pays', 'fltb.fState': 'État', 'fltb.fCounty': 'Comté', 'fltb.fDxcc': 'DXCC #', 'fltb.fContinent': 'Continent', 'fltb.fCqz': 'Zone CQ', 'fltb.fItuz': 'Zone ITU', 'fltb.fIota': 'IOTA', 'fltb.fSota': 'Réf SOTA', 'fltb.fPota': 'Réf POTA', 'fltb.fWwff': 'Réf WWFF', 'fltb.fRig': 'Station', 'fltb.fAntenna': 'Antenne', 'fltb.fQslSent': 'QSL envoyée', 'fltb.fQslRcvd': 'QSL reçue', 'fltb.fQslVia': 'QSL via', 'fltb.fLotwSent': 'LoTW envoyé', 'fltb.fLotwRcvd': 'LoTW reçu', 'fltb.fEqslSent': 'eQSL envoyé', 'fltb.fEqslRcvd': 'eQSL reçu', 'fltb.fQrzUpload': 'Statut upload QRZ', 'fltb.fClublogUpload': 'Statut upload ClubLog', 'fltb.fHrdlogUpload': 'Statut upload HRDLog', 'fltb.fContestId': 'ID contest', 'fltb.fSerialRcvd': 'Numéro reçu', 'fltb.fSerialSent': 'Numéro envoyé', 'fltb.fPropMode': 'Mode de propagation', 'fltb.fSatellite': 'Satellite', 'fltb.fMyCallsign': 'Mon indicatif', 'fltb.fOperator': 'Opérateur', 'fltb.fOwnerCallsign': 'Indicatif propriétaire', 'fltb.fMyGrid': 'Mon locator', 'fltb.fMyCountry': 'Mon pays', 'fltb.fMyState': 'Mon état', 'fltb.fMyCounty': 'Mon comté', 'fltb.fMyIota': 'Mon IOTA', 'fltb.fMySota': 'Ma réf SOTA', 'fltb.fMyPota': 'Ma réf POTA', 'fltb.fMyWwff': 'Ma réf WWFF', 'fltb.fMyStreet': 'Ma rue', 'fltb.fMyCity': 'Ma ville', 'fltb.fMyPostal': 'Mon code postal', 'fltb.fMyRig': 'Ma station', 'fltb.fMyAntenna': 'Mon antenne', 'fltb.fTxPower': 'Puissance TX (W)', 'fltb.fComment': 'Commentaire', 'fltb.fNotes': 'Notes', 'fltb.opEq': 'égal (=)', 'fltb.opNe': 'différent (≠)', 'fltb.opContains': 'contient', 'fltb.opStartsWith': 'commence par', 'fltb.opEndsWith': 'finit par', 'fltb.opGt': 'supérieur à (>)', 'fltb.opLt': 'inférieur à (<)', 'fltb.opGe': 'supérieur ou égal (≥)', 'fltb.opLe': 'inférieur ou égal (≤)', 'fltb.opEmpty': 'est vide', 'fltb.opNotEmpty': "n'est pas vide", 'fltb.title': 'Filtre QSO', 'fltb.match': 'Correspondance', 'fltb.all': 'TOUS (ET)', 'fltb.any': 'AU MOINS UN (OU)', 'fltb.loadPreset': 'Charger un préréglage…', 'fltb.noConditions': 'Aucune condition — la liste affiche tous les QSO. Ajoutes-en une ci-dessous.', 'fltb.where': 'OÙ', 'fltb.valuePh': 'valeur', 'fltb.remove': 'Retirer', 'fltb.addCondition': 'Ajouter une condition', 'fltb.presetNamePh': 'Nom du préréglage…', 'fltb.savePreset': 'Enregistrer le préréglage', 'fltb.clear': 'Effacer', 'fltb.cancel': 'Annuler', 'fltb.applyClose': 'Appliquer & fermer',
|
||||
'detp.propAS': 'Diffusion par avion', 'detp.propAUR': 'Aurore', 'detp.propAUE': 'Aurore-E', 'detp.propBS': 'Rétrodiffusion', 'detp.propEME': 'Terre-Lune-Terre', 'detp.propES': 'Sporadique E', 'detp.propFAI': 'Irrégularités alignées au champ', 'detp.propF2': 'Réflexion F2', 'detp.propGWAVE': 'Onde de sol', 'detp.propINTERNET': 'Assisté par Internet', 'detp.propION': 'Diffusion ionosphérique', 'detp.propLOS': 'Vue directe', 'detp.propMS': 'Diffusion météoritique', 'detp.propRPT': 'Répéteur terrestre / atmosphérique', 'detp.propRS': 'Diffusion par la pluie', 'detp.propSAT': 'Satellite', 'detp.propTEP': 'Trans-équatorial', 'detp.propTR': 'Conduit troposphérique', 'detp.pathShort': 'Chemin court', 'detp.pathLong': 'Chemin long', 'detp.pathGrayline': 'Ligne grise', 'detp.pathOther': 'Autre', 'detp.tabStats': 'Stats', 'detp.tabInfo': 'Info', 'detp.tabAwards': 'Diplômes', 'detp.tabMy': 'Moi', 'detp.tabExtended': 'Étendu', 'detp.statePref': 'État / préf', 'detp.county': 'Comté', 'detp.prefix': 'Préfixe', 'detp.cqZone': 'Zone CQ', 'detp.ituZone': 'Zone ITU', 'detp.dxcc': 'DXCC #', 'detp.azimuthLp': 'Azimut LP', 'detp.distanceSp': 'Distance SP', 'detp.distanceLp': 'Distance LP', 'detp.address': 'Adresse', 'detp.qslMessage': 'Message QSL', 'detp.qslVia': 'QSL via', 'detp.detected': 'Détecté — ce contact comptera pour :', 'detp.azimuth': 'Azimut (°)', 'detp.elevation': 'Élévation (°)', 'detp.txPower': 'Puissance TX (W)', 'detp.satelliteMode': 'Mode satellite', 'detp.antPath': 'Chemin ant.', 'detp.propagation': 'Propagation', 'detp.rig': 'Station', 'detp.antenna': 'Antenne', 'detp.satName': 'Nom du satellite', 'detp.contestId': 'ID contest', 'detp.rcvdExchangePh': 'échange reçu', 'detp.sentExchangePh': 'échange envoyé', 'detp.contactedEmail': 'E-mail du contact',
|
||||
'awrp.remove': 'Retirer', 'awrp.searchLabel': 'Rechercher {label}…', 'awrp.searching': 'Recherche…', 'awrp.noMatch': 'Aucune correspondance.', 'awrp.noMatchDxcc': 'Aucune correspondance pour ce DXCC.',
|
||||
'awrs.group': 'Groupe', 'awrs.sub': 'Sous', 'awrs.pickReference': '← choisis une référence', 'awrs.add': 'Ajouter', 'awrs.enterCallsignFirst': "Saisis d'abord un indicatif", 'awrs.noRefsAdded': 'Aucune référence ajoutée', 'awrs.references': 'Références', 'awrs.autoMatchTitle': 'Le champ {field} vaut {code} — ce diplôme le compte automatiquement', 'awrs.fromField': 'depuis {field}', 'awrs.autoClickToAdd': 'auto — clic pour ajouter', 'awrs.search': 'Rechercher…', 'awrs.addUnlistedTitle': "Ajouter cette référence même si elle n'est pas encore dans la liste (nouvelle / non listée)", 'awrs.addPrefix': '+ Ajouter', 'awrs.unlisted': '(non listée)', 'awrs.searching': 'Recherche…', 'awrs.typeToSearch': 'Tape 2+ caractères pour chercher', 'awrs.enterCallsignOrSearch': 'Saisis un indicatif, ou tape pour chercher.', 'awrs.noRefsForEntity': 'Aucune référence pour cette entité.', 'awrs.noResults': 'Aucun résultat.', 'awrs.downloadLists': 'Télécharge les listes de références dans le panneau Diplômes → Importer les données.',
|
||||
'awp.awards': 'Diplômes', 'awp.editAwards': 'Éditer les diplômes', 'awp.rescanTitle': 'Recharger le journal et recalculer (récupère les nouvelles confirmations LoTW/QRZ)', 'awp.rescan': 'Rescan', 'awp.selectAward': 'Sélectionner un diplôme…', 'awp.of': 'sur', 'awp.computing': 'Calcul…', 'awp.noData': 'Aucune donnée', 'awp.worked': 'contacté', 'awp.confirmed': 'confirmé', 'awp.validated': 'validé', 'awp.ofConfirmed': 'sur {total} · {pct}% confirmés', 'awp.byBand': 'Par bande (confirmés / contactés)', 'awp.filterReferences': 'Filtrer les références…', 'awp.filterAll': 'Tous', 'awp.filterWkd': 'Contactés', 'awp.filterNotWkd': 'Non contactés', 'awp.filterWkdNotCfmd': 'Contactés non conf.', 'awp.refs': 'réf.', 'awp.missingRefsTitle': "Contacts dans le périmètre de ce diplôme (bon DXCC/bande/mode) mais sans référence — exclus tant que tu n'en ajoutes pas", 'awp.missingRefs': 'Réf. manquantes', 'awp.gridView': 'Vue grille', 'awp.listView': 'Vue liste', 'awp.statistics': 'Statistiques', 'awp.statistic': 'Statistique', 'awp.total': 'Total', 'awp.grand': 'Général', 'awp.ref': 'Réf', 'awp.description': 'Description', 'awp.cellTitle': '{ref} · {band} — clic pour voir les QSO', 'awp.name': 'Nom', 'awp.groupCol': 'Groupe', 'awp.status': 'Statut', 'awp.bands': 'Bandes', 'awp.missing': '— manquant', 'awp.contactsMissingRef': 'contacts sans référence', 'awp.recomputeTitle': 'Recalculer — les contacts corrigés disparaissent de la liste', 'awp.refresh': 'Rafraîchir', 'awp.missingScopeHelp': 'Dans le périmètre de ce diplôme (DXCC / bande / mode / dates) mais aucune référence trouvée — ils ne comptent donc pas encore. Trie par colonne, coche les contacts concernés, puis attribue la référence ci-dessous.', 'awp.orClickRow': '(Ou clique une ligne pour ouvrir le QSO.)', 'awp.selectedArrow': '{n} sélectionné(s) →', 'awp.chooseReference': 'Choisir une référence à attribuer…', 'awp.assignToSelected': 'Attribuer à {n} sélectionné(s)', 'awp.scanning': 'Analyse…', 'awp.noGaps': "Aucun manque trouvé. (La détection de référence manquante s'applique aux diplômes limités à une entité DXCC — ex. DDFM, WAS, RAC, WAJA.)", 'awp.dateUtc': 'Date (UTC)', 'awp.callsign': 'Indicatif', 'awp.band': 'Bande', 'awp.mode': 'Mode', 'awp.country': 'Pays', 'awp.qthNote': 'QTH / Note', 'awp.stations': 'stations', 'awp.contactsWithoutRef': 'contacts sans référence', 'awp.assignedMsg': '{code}@{ref} attribué à {n} contact(s).', 'awp.loading': 'Chargement…', 'awp.noQsos': 'Aucun QSO.',
|
||||
'awed.addCountry': 'Ajouter un pays…', 'awed.exportedTo': 'Diplômes exportés vers :\n{path}', 'awed.importedMsg': '{awards} diplôme(s) et {references} référence(s) importés.', 'awed.awardManagement': 'Gestion des diplômes', 'awed.searchAwards': 'Rechercher un diplôme…', 'awed.newAward': 'Nouveau diplôme', 'awed.clickToDismiss': 'Cliquer pour fermer', 'awed.selectOrCreate': 'Sélectionne ou crée un diplôme.', 'awed.tabInfo': 'Infos diplôme', 'awed.tabType': 'Type de diplôme', 'awed.tabConfirmation': 'Confirmation', 'awed.tabReferences': 'Références', 'awed.awardName': 'Nom du diplôme', 'awed.valid': 'Valide', 'awed.deleteAward': 'Supprimer le diplôme', 'awed.description': 'Description', 'awed.awardUrl': 'URL du diplôme', 'awed.referenceUrl': 'URL de référence', 'awed.validFrom': 'Valide du', 'awed.validTo': 'Valide au', 'awed.dxccFilter': 'Filtre DXCC', 'awed.validBands': 'Bandes valides (vide = toutes)', 'awed.emission': 'Émission (vide = toutes)', 'awed.validModes': 'Modes valides (vide = tous)', 'awed.awardType': 'Type de diplôme', 'awed.allowMultiple': 'Autoriser plusieurs références sur un seul QSO', 'awed.dynamicRefs': 'Références dynamiques (non prédéfinies — toute valeur compte, comme POTA)', 'awed.qsoParams': 'Paramètres QSO (utilisés par les types QSOFIELDS / REFERENCE)', 'awed.searchInField': 'Chercher dans le champ', 'awed.matchBy': 'Correspondance par', 'awed.exactMatch': 'Correspondance exacte (sinon cherche la référence dans le champ)', 'awed.patternRegex': 'Motif (regex)', 'awed.patternPlaceholder': 'groupe 1 = référence (pour correspondance par motif / dynamique)', 'awed.leadingString': 'Chaîne de début', 'awed.trailingString': 'Chaîne de fin', 'awed.additionalSearches': 'Recherches supplémentaires', 'awed.orAlsoMatch': "— correspond aussi à la référence si l'une d'elles est trouvée", 'awed.addOr': 'Ajouter OU', 'awed.orSearchIn': 'OU — chercher dans', 'awed.exact': 'exact', 'awed.removeOrSearch': 'Supprimer cette recherche OU', 'awed.orPatternPlaceholder': 'regex — groupe 1 = référence (ex. \\b(\\d{2})\\d{3}\\b pour code postal → dépt)', 'awed.prefixPlaceholder': 'préfixe (D)', 'awed.prefixTitle': 'Ajouté devant chaque référence trouvée, ex. 74 → D74', 'awed.confirmationLabel': 'Confirmation (contacté → confirmé)', 'awed.validationLabel': 'Validation (confirmé → validé)', 'awed.grantCodes': "Codes d'attribution", 'awed.exportCreditGranted': 'Exporter le diplôme dans le champ ADIF credit_granted', 'awed.resetDefaults': 'Réinitialiser par défaut', 'awed.exportTitle': 'Exporter toutes les définitions de diplômes + listes de références vers une sauvegarde JSON', 'awed.export': 'Exporter…', 'awed.importTitle': 'Importer un lot de diplômes (définitions + listes de références)', 'awed.import': 'Importer…', 'awed.cancel': 'Annuler', 'awed.save': 'Enregistrer', 'awed.populatedMsg': '{n} références intégrées ajoutées.', 'awed.newRefCodePrompt': 'Nouveau code de référence :', 'awed.importedRefsMsg': '{n} références importées.', 'awed.referenceCount': 'Nombre de références :', 'awed.applyPreset': 'Appliquer un préréglage…', 'awed.pasteCsv': 'Coller / CSV', 'awed.populateBuiltinTitle': 'Remplacer par la liste intégrée fournie (entités DXCC, départements français, …)', 'awed.populateBuiltin': "Charger l'intégrée", 'awed.updateOnline': 'Mettre à jour en ligne', 'awed.add': 'Ajouter', 'awed.onePerLine': 'Une référence par ligne :', 'awed.replacesList': '(virgule/point-virgule/tab). Remplace toute la liste.', 'awed.import2': 'Importer', 'awed.search': 'Rechercher…', 'awed.searching': 'Recherche…', 'awed.tooManyItems': "Trop d'éléments ({total}). Affine la recherche (tape 2+ caractères).", 'awed.noReferences': 'Aucune référence.', 'awed.selectReference': 'Sélectionne une référence, ou Ajouter / importer une liste.', 'awed.group': 'Groupe', 'awed.subgroup': 'Sous-groupe', 'awed.perRefRegex': 'regex optionnelle par référence', 'awed.score': 'Score', 'awed.bonus': 'Bonus', 'awed.grid': 'Locator', 'awed.saveReference': 'Enregistrer la référence',
|
||||
'awed.addCountry': 'Ajouter un pays…', 'awed.exportedTo': 'Diplômes exportés vers :\n{path}', 'awed.importedMsg': '{awards} diplôme(s) et {references} référence(s) importés.', 'awed.awardManagement': 'Gestion des diplômes', 'awed.searchAwards': 'Rechercher un diplôme…', 'awed.newAward': 'Nouveau diplôme', 'awed.clickToDismiss': 'Cliquer pour fermer', 'awed.selectOrCreate': 'Sélectionne ou crée un diplôme.', 'awed.tabInfo': 'Infos diplôme', 'awed.tabType': 'Type de diplôme', 'awed.tabConfirmation': 'Confirmation', 'awed.tabReferences': 'Références', 'awed.awardName': 'Nom du diplôme', 'awed.valid': 'Valide', 'awed.deleteAward': 'Supprimer le diplôme', 'awed.description': 'Description', 'awed.awardUrl': 'URL du diplôme', 'awed.refDisplay': 'La colonne affiche', 'awed.refDisplayRef': 'Référence', 'awed.refDisplayName': 'Description / nom', 'awed.refDisplayBoth': 'Les deux (réf — nom)', 'awed.referenceUrl': 'URL de référence', 'awed.validFrom': 'Valide du', 'awed.validTo': 'Valide au', 'awed.dxccFilter': 'Filtre DXCC', 'awed.validBands': 'Bandes valides (vide = toutes)', 'awed.emission': 'Émission (vide = toutes)', 'awed.validModes': 'Modes valides (vide = tous)', 'awed.awardType': 'Type de diplôme', 'awed.allowMultiple': 'Autoriser plusieurs références sur un seul QSO', 'awed.dynamicRefs': 'Références dynamiques (non prédéfinies — toute valeur compte, comme POTA)', 'awed.qsoParams': 'Paramètres QSO (utilisés par les types QSOFIELDS / REFERENCE)', 'awed.searchInField': 'Chercher dans le champ', 'awed.matchBy': 'Correspondance par', 'awed.exactMatch': 'Correspondance exacte (sinon cherche la référence dans le champ)', 'awed.patternRegex': 'Motif (regex)', 'awed.patternPlaceholder': 'groupe 1 = référence (pour correspondance par motif / dynamique)', 'awed.leadingString': 'Chaîne de début', 'awed.trailingString': 'Chaîne de fin', 'awed.additionalSearches': 'Recherches de repli', 'awed.orAlsoMatch': "— essayées dans l'ordre, seulement si rien n'a encore été trouvé ; la première qui marche gagne", 'awed.addOr': 'Ajouter OU', 'awed.orSearchIn': 'OU — chercher dans', 'awed.exact': 'exact', 'awed.removeOrSearch': 'Supprimer cette recherche OU', 'awed.orPatternPlaceholder': 'regex — groupe 1 = référence (ex. \\b(\\d{2})\\d{3}\\b pour code postal → dépt)', 'awed.prefixPlaceholder': 'préfixe (D)', 'awed.prefixTitle': 'Ajouté devant chaque référence trouvée, ex. 74 → D74', 'awed.confirmationLabel': 'Confirmation (contacté → confirmé)', 'awed.validationLabel': 'Validation (confirmé → validé)', 'awed.grantCodes': "Codes d'attribution", 'awed.exportCreditGranted': 'Exporter le diplôme dans le champ ADIF credit_granted', 'awed.resetDefaults': 'Réinitialiser par défaut', 'awed.exportTitle': 'Exporter toutes les définitions de diplômes + listes de références vers une sauvegarde JSON', 'awed.export': 'Exporter…', 'awed.importTitle': 'Importer un lot de diplômes (définitions + listes de références)', 'awed.import': 'Importer…', 'awed.cancel': 'Annuler', 'awed.save': 'Enregistrer', 'awed.populatedMsg': '{n} références intégrées ajoutées.', 'awed.newRefCodePrompt': 'Nouveau code de référence :', 'awed.importedRefsMsg': '{n} références importées.', 'awed.referenceCount': 'Nombre de références :', 'awed.applyPreset': 'Appliquer un préréglage…', 'awed.pasteCsv': 'Coller / CSV', 'awed.populateBuiltinTitle': 'Remplacer par la liste intégrée fournie (entités DXCC, départements français, …)', 'awed.populateBuiltin': "Charger l'intégrée", 'awed.updateOnline': 'Mettre à jour en ligne', 'awed.add': 'Ajouter', 'awed.onePerLine': 'Une référence par ligne :', 'awed.replacesList': '(virgule/point-virgule/tab). Remplace toute la liste.', 'awed.import2': 'Importer', 'awed.search': 'Rechercher…', 'awed.searching': 'Recherche…', 'awed.tooManyItems': "Trop d'éléments ({total}). Affine la recherche (tape 2+ caractères).", 'awed.noReferences': 'Aucune référence.', 'awed.selectReference': 'Sélectionne une référence, ou Ajouter / importer une liste.', 'awed.group': 'Groupe', 'awed.subgroup': 'Sous-groupe', 'awed.perRefRegex': 'regex optionnelle par référence', 'awed.score': 'Score', 'awed.bonus': 'Bonus', 'awed.grid': 'Locator', 'awed.saveReference': 'Enregistrer la référence',
|
||||
'qctx.selected': '{n} QSO sélectionné(s)', 'qctx.fixCountry': 'Corriger pays et zones depuis cty.dat', 'qctx.updateQrz': 'Mettre à jour depuis QRZ.com', 'qctx.updateClublog': 'Mettre à jour depuis ClubLog (exceptions)', 'qctx.sendQslEmail': 'Envoyer la QSL OpsLog par e-mail', 'qctx.sendRecording': "Envoyer l'enregistrement par e-mail", 'qctx.bulkEdit': "Édition groupée d'un champ… ({n})", 'qctx.exportSelectedAdif': 'Exporter la sélection en ADIF ({n})', 'qctx.exportFilteredAdif': 'Exporter la vue filtrée en ADIF (sans limite)', 'qctx.exportSelectedCabrillo': 'Exporter la sélection en Cabrillo ({n})', 'qctx.exportFilteredCabrillo': 'Exporter la vue filtrée en Cabrillo (sans limite)', 'qctx.sendTo': 'Envoyer vers {name}', 'qctx.delete': 'Supprimer {n} QSO…',
|
||||
'bulk.fLotwSent': 'LoTW envoyé', 'bulk.fLotwRcvd': 'LoTW reçu', 'bulk.fEqslSent': 'eQSL envoyé', 'bulk.fEqslRcvd': 'eQSL reçu', 'bulk.fQslSent': 'QSL papier envoyée', 'bulk.fQslRcvd': 'QSL papier reçue', 'bulk.fQrzUpload': 'Envoi QRZ.com', 'bulk.fClublogUpload': 'Envoi Club Log', 'bulk.fHrdlogUpload': 'Envoi HRDLog', 'bulk.fQslVia': 'QSL via', 'bulk.fStationCall': 'Indicatif de la station', 'bulk.fOperator': 'Opérateur', 'bulk.fMyGrid': 'Mon locator', 'bulk.fMyAntenna': 'Mon antenne', 'bulk.fMyRig': 'Mon équipement', 'bulk.fMyStreet': 'Ma rue', 'bulk.fMyCity': 'Ma ville', 'bulk.fMyPostal': 'Mon code postal', 'bulk.fMyCountry': 'Mon pays', 'bulk.fMyState': 'Mon état', 'bulk.fMyCounty': 'Mon comté', 'bulk.fMyIota': 'Mon IOTA', 'bulk.fMySota': 'Ma réf. SOTA', 'bulk.fMyPota': 'Ma réf. POTA', 'bulk.fMyWwff': 'Ma réf. WWFF', 'bulk.fMySig': 'Mon SIG', 'bulk.fMySigInfo': 'Mon info SIG', 'bulk.fComment': 'Commentaire', 'bulk.fNotes': 'Notes', 'bulk.fRig': 'Équipement (contacté)', 'bulk.fAnt': 'Antenne (contactée)', 'bulk.statusY': 'Y — Oui / envoyé', 'bulk.statusN': 'N — Non', 'bulk.statusR': 'R — Demandé', 'bulk.statusI': 'I — Ignorer', 'bulk.statusBlank': '(vide — effacer)', 'bulk.groupQsl': 'QSL / envoi', 'bulk.groupMyStation': 'Ma station', 'bulk.groupMisc': 'Divers', 'bulk.title': "Édition groupée d'un champ", 'bulk.desc': 'Définir un champ sur les {n} QSO sélectionné(s). Cela écrase la valeur actuelle — aucune annulation possible.', 'bulk.fieldLabel': 'Champ', 'bulk.valueLabel': 'Valeur', 'bulk.clearPlaceholder': 'laisser vide pour effacer le champ', 'bulk.willSet': 'Définira', 'bulk.blank': '(vide)', 'bulk.onQsos': 'sur {n} QSO.', 'bulk.cancel': 'Annuler', 'bulk.applyTo': 'Appliquer à {n}',
|
||||
'bulk.fLotwSent': 'LoTW envoyé', 'bulk.fLotwRcvd': 'LoTW reçu', 'bulk.fEqslSent': 'eQSL envoyé', 'bulk.fEqslRcvd': 'eQSL reçu', 'bulk.fQslSent': 'QSL papier envoyée', 'bulk.fQslRcvd': 'QSL papier reçue', 'bulk.fQrzUpload': 'Envoi QRZ.com', 'bulk.fClublogUpload': 'Envoi Club Log', 'bulk.fHrdlogUpload': 'Envoi HRDLog', 'bulk.fQslVia': 'QSL via', 'bulk.fStationCall': 'Indicatif de la station', 'bulk.fOperator': 'Opérateur', 'bulk.fMyGrid': 'Mon locator', 'bulk.fMyAntenna': 'Mon antenne', 'bulk.fMyRig': 'Mon équipement', 'bulk.fMyStreet': 'Ma rue', 'bulk.fMyCity': 'Ma ville', 'bulk.fMyPostal': 'Mon code postal', 'bulk.fMyCountry': 'Mon pays', 'bulk.fMyState': 'Mon état', 'bulk.fMyCounty': 'Mon comté', 'bulk.fMyIota': 'Mon IOTA', 'bulk.fMySota': 'Ma réf. SOTA', 'bulk.fMyPota': 'Ma réf. POTA', 'bulk.fMyWwff': 'Ma réf. WWFF', 'bulk.fMySig': 'Mon SIG', 'bulk.fMySigInfo': 'Mon info SIG', 'bulk.fContestId': 'ID concours', 'bulk.fSrxString': 'Série reçue (échange)', 'bulk.fStxString': 'Série envoyée (échange)', 'bulk.fArrlSect': 'Section ARRL', 'bulk.fPrecedence': 'Précédence', 'bulk.fClass': 'Classe', 'bulk.fPropMode': 'Mode de propagation', 'bulk.fSatName': 'Nom du satellite', 'bulk.fSatMode': 'Mode satellite', 'bulk.fPotaRef': 'Réf POTA', 'bulk.fSotaRef': 'Réf SOTA', 'bulk.fWwffRef': 'Réf WWFF', 'bulk.fIota': 'IOTA', 'bulk.fSig': 'SIG', 'bulk.fSigInfo': 'Info SIG', 'bulk.fComment': 'Commentaire', 'bulk.fNotes': 'Notes', 'bulk.fRig': 'Équipement (contacté)', 'bulk.fAnt': 'Antenne (contactée)', 'bulk.statusY': 'Y — Oui / envoyé', 'bulk.statusN': 'N — Non', 'bulk.statusR': 'R — Demandé', 'bulk.statusI': 'I — Ignorer', 'bulk.statusBlank': '(vide — effacer)', 'bulk.groupQsl': 'QSL / envoi', 'bulk.groupMyStation': 'Ma station', 'bulk.groupContacted': 'Station contactée', 'bulk.groupContest': 'Concours', 'bulk.groupPropagation': 'Propagation', 'bulk.groupMisc': 'Divers', 'bulk.title': "Édition groupée d'un champ", 'bulk.desc': 'Définir un champ sur les {n} QSO sélectionné(s). Cela écrase la valeur actuelle — aucune annulation possible.', 'bulk.fieldLabel': 'Champ', 'bulk.valueLabel': 'Valeur', 'bulk.clearPlaceholder': 'laisser vide pour effacer le champ', 'bulk.willSet': 'Définira', 'bulk.blank': '(vide)', 'bulk.onQsos': 'sur {n} QSO.', 'bulk.cancel': 'Annuler', 'bulk.applyTo': 'Appliquer à {n}',
|
||||
'qslm.leave': '— laisser —', 'qslm.yes': 'Oui', 'qslm.no': 'Non', 'qslm.requested': 'Demandé', 'qslm.ignore': 'Ignorer', 'qslm.viaBureau': 'Bureau', 'qslm.viaDirect': 'Direct', 'qslm.viaElectronic': 'Électronique', 'qslm.svcPota': 'Journal chasseur POTA', 'qslm.svcPaper': 'QSL papier', 'qslm.sentRequested': 'Demandé', 'qslm.sentNo': 'Non', 'qslm.sentQueued': 'En file', 'qslm.sentYes': 'Oui (déjà envoyé)', 'qslm.sentInvalid': 'Invalide', 'qslm.sentBlank': '— vide —', 'qslm.qsoUpdated': '{n} QSO mis à jour.', 'qslm.service': 'Service', 'qslm.callsign': 'Indicatif', 'qslm.callsignScopeTitle': "L'envoi/téléchargement est limité à cet indicatif (indicatif de station forcé, sinon celui du profil actif)", 'qslm.syncHunterLog': 'Synchroniser le journal chasseur', 'qslm.onlyMyCallTitle': "Ne synchroniser que les chasses faites sous l'indicatif de votre profil actif — ignorer les QSO faits sous un autre indicatif (ex. XV9Q, NQ2H) absents de ce journal", 'qslm.onlyMyCall': "Uniquement l'indicatif de mon profil", 'qslm.addMissingTitle': "Insérer les contacts du journal chasseur dont l'indicatif n'est pas encore dans votre journal (indicatif/date/bande/mode/parc)", 'qslm.addMissing': 'Ajouter les QSO introuvables à mon journal', 'qslm.potaToken': 'Jeton dans Réglages → Services externes → POTA.', 'qslm.callsignPlaceholder': 'ex. DL1ABC', 'qslm.search': 'Rechercher', 'qslm.paperHint': 'Trouvez un indicatif, puis définissez QSL envoyée/reçue + via + date sur la sélection.', 'qslm.sentStatus': 'Statut envoyé', 'qslm.selectRequired': 'Sélectionner les requis', 'qslm.potaSummaryShort': '{updated} mis à jour · {added} ajoutés · {already} déjà · {unmatched} sans correspondance', 'qslm.potaOtherCall': ' · {n} autre indicatif', 'qslm.paperCount': '{total} QSO · {selected} sélectionné(s)', 'qslm.filter': 'Filtre', 'qslm.filterAll': 'Tous', 'qslm.filterNew': 'Nouveau (tout)', 'qslm.filterNewDxcc': 'Nouveau DXCC', 'qslm.filterNewBand': 'Nouvelle bande', 'qslm.filterNewSlot': 'Nouveau créneau', 'qslm.results': 'Résultats', 'qslm.log': 'Journal', 'qslm.confCount': '{shown} / {total} confirmation(s)', 'qslm.foundCount': '{found} trouvé(s) · {selected} sélectionné(s)', 'qslm.paperEmpty': 'Recherchez un indicatif pour lister ses QSO, puis définissez le statut QSL ci-dessous.', 'qslm.potaEmpty': 'Cliquez sur « Synchroniser le journal chasseur » pour récupérer votre journal pota.app et tamponner les références de parc.', 'qslm.potaSyncing': 'Synchronisation avec pota.app…', 'qslm.potaSummary': '{updated} QSO mis à jour · {added} ajoutés au journal · {already} déjà tamponnés · {unmatched} sans correspondance (sur {fetched} entrées du journal chasseur).', 'qslm.potaSkipped': ' {n} chasse(s) faites sous un autre indicatif ont été ignorées', 'qslm.potaKeptOnly': ' (conservé uniquement {call})', 'qslm.potaRescan': 'Relancez le scan du diplôme POTA pour compter les nouvelles références.', 'qslm.thActivator': 'Activateur', 'qslm.thDateUtc': 'Date UTC', 'qslm.thBand': 'Bande', 'qslm.thPark': 'Parc', 'qslm.thWhyUnmatched': 'Pourquoi sans correspondance', 'qslm.openToFix': 'Ouvrir ce QSO pour le corriger', 'qslm.starting': 'démarrage…', 'qslm.working': 'en cours…', 'qslm.noNewConf': 'Aucune nouvelle confirmation.', 'qslm.noConfMatch': 'Aucune confirmation ne correspond à ce filtre.', 'qslm.thCallsign': 'Indicatif', 'qslm.thMode': 'Mode', 'qslm.thCountry': 'Pays', 'qslm.thNew': 'Nouveau ?', 'qslm.newDxcc': 'NOUVEAU DXCC', 'qslm.newBand': 'NOUVELLE BANDE', 'qslm.newSlot': 'NOUVEAU CRÉNEAU', 'qslm.uploadEmpty': 'Choisissez un service + statut envoyé, puis « Sélectionner les requis ».', 'qslm.qslReceived': 'QSL reçue', 'qslm.qslRcvdDateTitle': 'Date de réception QSL', 'qslm.qslSent': 'QSL envoyée', 'qslm.qslSentDateTitle': "Date d'envoi QSL", 'qslm.via': 'Via', 'qslm.notes': 'Notes', 'qslm.notesPlaceholder': 'ex. payé 3€', 'qslm.comment': 'Commentaire', 'qslm.commentPlaceholder': 'commentaire', 'qslm.applyToSelected': 'Appliquer à {n} sélectionné(s)', 'qslm.downloadTitle': 'Récupérer les confirmations du service et mettre à jour le statut reçu', 'qslm.downloadConf': 'Télécharger les confirmations', 'qslm.downloadRangeTitle': "Jusqu'où télécharger", 'qslm.sinceLast': 'Depuis le dernier téléchargement', 'qslm.sinceDate': 'Depuis une date…', 'qslm.sinceAll': 'Tout', 'qslm.sinceDateTitleQrz': 'QRZ : filtre par date de QSO (pas de filtre par date de réception côté serveur)', 'qslm.sinceDateTitleLotw': 'LoTW : confirmations reçues depuis cette date', 'qslm.addNotFoundTitle': "Insérer les QSO confirmés qui ne sont pas encore dans votre journal", 'qslm.addNotFound': 'Ajouter les introuvables', 'qslm.uploadTo': 'Envoyer {n} vers {service}',
|
||||
'qedit.qslDash': '—', 'qedit.qslYes': 'Oui', 'qedit.qslNo': 'Non', 'qedit.qslRequested': 'Demandé', 'qedit.qslIgnore': 'Ignorer', 'qedit.statusModified': 'Modifié', 'qedit.confQslPaper': 'QSL (papier)', 'qedit.callsignRequired': 'Indicatif requis', 'qedit.lookupError': 'Recherche : {msg}', 'qedit.title': 'Modifier le QSO', 'qedit.editFieldsFor': 'Modifier les champs du QSO #{id}', 'qedit.tabQsoInfo': 'Infos QSO', 'qedit.tabContact': 'Détails du contact', 'qedit.tabAwards': 'Réf. diplômes', 'qedit.tabQsl': 'Infos QSL', 'qedit.tabContest': 'Concours', 'qedit.tabSat': 'Sat / Prop', 'qedit.tabMyStation': 'Ma station', 'qedit.tabMoreAdif': "Plus d'ADIF", 'qedit.tabAdifFields': 'Champs ADIF', 'qedit.callsign': 'Indicatif', 'qedit.fetchTitle': 'Rechercher cet indicatif (QRZ.com / HamQTH) et actualiser nom, pays, locator, zones…', 'qedit.fetch': 'Rechercher', 'qedit.name': 'Nom', 'qedit.band': 'Bande', 'qedit.rxBand': 'Bande RX', 'qedit.mode': 'Mode', 'qedit.country': 'Pays', 'qedit.dxccTitle': "Entité DXCC n° — définie automatiquement d'après le pays", 'qedit.txFreq': 'Fréq. TX', 'qedit.rxFreq': 'Fréq. RX', 'qedit.qsoStart': 'Début QSO (UTC)', 'qedit.qsoEnd': 'Fin QSO (UTC)', 'qedit.grid': 'Locator', 'qedit.comment': 'Commentaire', 'qedit.note': 'Note', 'qedit.county': 'Comté', 'qedit.state': 'État', 'qedit.continent': 'Continent', 'qedit.address': 'Adresse', 'qedit.email': 'Adresse e-mail', 'qedit.qslMsg': 'Message QSL', 'qedit.qslVia': 'QSL Via', 'qedit.computedAuto': 'Calculé (automatique)', 'qedit.computedHint': 'Dérivé des champs de ce QSO (DXCC, zones, préfixe, notes…). Non modifiable ici.', 'qedit.noneYet': "Aucun pour l'instant.", 'qedit.manageConf': 'Gérer la confirmation', 'qedit.sent': 'Envoyé', 'qedit.received': 'Reçu', 'qedit.dateSent': "Date d'envoi", 'qedit.dateReceived': 'Date de réception', 'qedit.via': 'Via', 'qedit.viaPlaceholder': 'BUREAU / DIRECT / manager…', 'qedit.qslPanelHint': 'Choisissez un canal, modifiez-le — le tableau de droite se met à jour en direct. Tout est enregistré quand vous cliquez sur', 'qedit.saveChanges': 'Enregistrer', 'qedit.thType': 'Type', 'qedit.contestId': 'ID concours', 'qedit.rcvdExchange': 'échange reçu', 'qedit.sentExchange': 'échange envoyé', 'qedit.check': 'Check', 'qedit.precedence': 'Précédence', 'qedit.arrlSection': 'Section ARRL', 'qedit.propMode': 'Mode de propagation', 'qedit.satName': 'Nom du satellite', 'qedit.satMode': 'Mode satellite', 'qedit.antAz': 'Azimut antenne (°)', 'qedit.antEl': 'Élévation antenne (°)', 'qedit.antPath': "Chemin d'antenne", 'qedit.myStationHint': 'Ces valeurs remplacent le profil de station actif pour ce QSO uniquement.', 'qedit.stationCallsign': 'Indicatif de la station', 'qedit.operator': 'Opérateur', 'qedit.myGrid': 'Mon locator', 'qedit.gridExt': 'Ext. locator', 'qedit.cqZone': 'Zone CQ', 'qedit.ituZone': 'Zone ITU', 'qedit.sotaRef': 'Réf. SOTA', 'qedit.potaRef': 'Réf. POTA', 'qedit.street': 'Rue', 'qedit.city': 'Ville', 'qedit.postal': 'Code postal', 'qedit.rig': 'Équipement', 'qedit.antenna': 'Antenne', 'qedit.specialActivity': 'Activité spéciale', 'qedit.sigInfo': 'Info SIG', 'qedit.wwffRef': 'Réf. WWFF', 'qedit.region': 'Région', 'qedit.powerWeather': 'Puissance et météo spatiale', 'qedit.rxPower': 'Puissance RX (W)', 'qedit.distance': 'Distance (km)', 'qedit.aIndex': 'Indice A', 'qedit.kIndex': 'Indice K', 'qedit.identityClubs': 'Identité et clubs', 'qedit.contactedOp': 'Opérateur contacté', 'qedit.formerCall': 'Ancien indicatif (EQ_CALL)', 'qedit.class': 'Classe', 'qedit.flagsCredits': 'Indicateurs et crédits', 'qedit.qsoComplete': 'QSO complet', 'qedit.qsoRandom': 'QSO aléatoire', 'qedit.silentKey': 'Silent key', 'qedit.creditGranted': 'Crédit accordé', 'qedit.creditSubmitted': 'Crédit soumis', 'qedit.myStationAdif': 'Ma station (ADIF)', 'qedit.myName': 'Mon nom', 'qedit.myWwffRef': 'Ma réf. WWFF', 'qedit.myArrlSect': 'Ma section ARRL', 'qedit.mySig': 'Mon SIG', 'qedit.mySigInfo': 'Mon info SIG', 'qedit.myDarcDok': 'Mon DARC DOK', 'qedit.myVuccGrids': 'Mes locators VUCC', 'qedit.delete': 'Supprimer', 'qedit.cancel': 'Annuler', 'qedit.saving': 'Enregistrement…',
|
||||
'rqg.c.qso_date': 'Date UTC', 'rqg.c.qso_date_off': 'Date fin', 'rqg.c.callsign': 'Indicatif', 'rqg.c.band': 'Bande', 'rqg.c.band_rx': 'Bande RX', 'rqg.c.mode': 'Mode', 'rqg.c.submode': 'Sous-mode', 'rqg.c.freq_hz': 'Fréq (TX)', 'rqg.h.freq_hz': 'Fréq', 'rqg.c.freq_rx_hz': 'Fréq (RX)', 'rqg.h.freq_rx_hz': 'Fréq RX', 'rqg.c.rst_sent': 'RST env', 'rqg.c.rst_rcvd': 'RST reçu', 'rqg.c.tx_pwr': 'Puiss. TX', 'rqg.c.name': 'Nom', 'rqg.c.qth': 'QTH', 'rqg.c.address': 'Adresse', 'rqg.c.country': 'Pays', 'rqg.c.state': 'État', 'rqg.c.cnty': 'Comté', 'rqg.c.cont': 'Continent', 'rqg.h.cont': 'Cont', 'rqg.c.grid': 'Locator', 'rqg.c.gridsquare_ext': 'Ext. loc.', 'rqg.h.gridsquare_ext': 'ExtLoc', 'rqg.c.vucc_grids': 'Locators VUCC', 'rqg.h.vucc_grids': 'VUCC', 'rqg.c.dxcc': 'DXCC #', 'rqg.c.cqz': 'CQZ', 'rqg.c.ituz': 'ITU', 'rqg.c.iota': 'IOTA', 'rqg.c.sota_ref': 'Réf. SOTA', 'rqg.h.sota_ref': 'SOTA', 'rqg.c.pota_ref': 'Réf. POTA', 'rqg.h.pota_ref': 'POTA', 'rqg.c.age': 'Âge', 'rqg.c.lat': 'Lat', 'rqg.c.lon': 'Lon', 'rqg.c.email': 'E-mail', 'rqg.c.web': 'Web', 'rqg.c.qsl_sent': 'QSL env', 'rqg.c.qsl_rcvd': 'QSL reçu', 'rqg.c.qsl_sent_date': 'Date env QSL', 'rqg.h.qsl_sent_date': 'QSL env.', 'rqg.c.qsl_rcvd_date': 'Date reçu QSL', 'rqg.h.qsl_rcvd_date': 'QSL reçu', 'rqg.c.qsl_via': 'QSL via', 'rqg.c.qsl_msg': 'Msg QSL', 'rqg.c.qslmsg_rcvd': 'Msg QSL reçu', 'rqg.c.lotw_sent': 'LoTW env', 'rqg.c.lotw_rcvd': 'LoTW reçu', 'rqg.c.lotw_sent_date': 'Date env LoTW', 'rqg.h.lotw_sent_date': 'LoTW env.', 'rqg.c.lotw_rcvd_date': 'Date reçu LoTW', 'rqg.h.lotw_rcvd_date': 'LoTW reçu', 'rqg.c.eqsl_sent': 'eQSL env', 'rqg.c.eqsl_rcvd': 'eQSL reçu', 'rqg.c.eqsl_sent_date': 'Date env eQSL', 'rqg.h.eqsl_sent_date': 'eQSL env.', 'rqg.c.eqsl_rcvd_date': 'Date reçu eQSL', 'rqg.h.eqsl_rcvd_date': 'eQSL reçu', 'rqg.c.opslog_qsl_card_sent': 'QSL OpsLog', 'rqg.c.opslog_recording_sent': 'Enreg. envoyé', 'rqg.h.opslog_recording_sent': 'Enr. env', 'rqg.c.clublog_sent': 'ClubLog env', 'rqg.c.clublog_sent_date': 'Date env ClubLog', 'rqg.h.clublog_sent_date': 'ClubLog env.', 'rqg.c.hrdlog_sent': 'HRDLog env', 'rqg.c.hrdlog_sent_date': 'Date env HRDLog', 'rqg.h.hrdlog_sent_date': 'HRDLog env.', 'rqg.c.qrz_sent': 'QRZ.com env', 'rqg.c.qrz_rcvd': 'QRZ.com reçu', 'rqg.c.qrz_sent_date': 'Date env QRZ.com', 'rqg.h.qrz_sent_date': 'QRZ.com env.', 'rqg.c.qrz_rcvd_date': 'Date reçu QRZ.com', 'rqg.h.qrz_rcvd_date': 'QRZ.com reçu', 'rqg.c.contest_id': 'ID concours', 'rqg.h.contest_id': 'Concours', 'rqg.c.srx': 'SRX', 'rqg.c.stx': 'STX', 'rqg.c.srx_string': 'Chaîne SRX', 'rqg.h.srx_string': 'SRX str', 'rqg.c.stx_string': 'Chaîne STX', 'rqg.h.stx_string': 'STX str', 'rqg.c.check': 'Check', 'rqg.c.precedence': 'Précédence', 'rqg.c.arrl_sect': 'Section ARRL', 'rqg.h.arrl_sect': 'Sect. ARRL', 'rqg.c.prop_mode': 'Mode prop.', 'rqg.h.prop_mode': 'Prop', 'rqg.c.sat_name': 'Nom sat.', 'rqg.h.sat_name': 'Sat', 'rqg.c.sat_mode': 'Mode sat.', 'rqg.c.ant_az': 'Azimut ant.', 'rqg.h.ant_az': 'Az', 'rqg.c.ant_el': 'Élévation ant.', 'rqg.h.ant_el': 'Él', 'rqg.c.ant_path': 'Chemin ant.', 'rqg.h.ant_path': 'Chemin', 'rqg.c.station_callsign': 'Indicatif station', 'rqg.h.station_callsign': 'Station', 'rqg.c.operator': 'Opérateur', 'rqg.c.my_grid': 'Mon locator', 'rqg.c.my_country': 'Mon pays', 'rqg.h.my_country': 'Mon pays', 'rqg.c.my_state': 'Mon état', 'rqg.c.my_cnty': 'Mon comté', 'rqg.h.my_cnty': 'Mon comté', 'rqg.c.my_iota': 'Mon IOTA', 'rqg.c.my_sota': 'Mon SOTA', 'rqg.c.my_pota': 'Mon POTA', 'rqg.c.my_dxcc': 'Mon DXCC', 'rqg.h.my_dxcc': 'Mon DXCC#', 'rqg.c.my_cq_zone': 'Ma zone CQ', 'rqg.h.my_cq_zone': 'Ma CQZ', 'rqg.c.my_itu_zone': 'Ma zone ITU', 'rqg.h.my_itu_zone': 'Ma ITU', 'rqg.c.my_lat': 'Ma lat', 'rqg.c.my_lon': 'Ma lon', 'rqg.c.my_street': 'Ma rue', 'rqg.h.my_street': 'Rue', 'rqg.c.my_city': 'Ma ville', 'rqg.h.my_city': 'Ville', 'rqg.c.my_zip': 'Mon code postal', 'rqg.h.my_zip': 'CP', 'rqg.c.my_rig': 'Mon équipement', 'rqg.c.my_antenna': 'Mon antenne', 'rqg.h.my_antenna': 'Mon ant.', 'rqg.c.comment': 'Commentaire', 'rqg.c.notes': 'Notes', 'rqg.c.created': 'Créé', 'rqg.h.created': 'Créé le', 'rqg.c.updated': 'Mis à jour', 'rqg.h.updated': 'Mis à jour le', 'rqg.grpQso': 'QSO', 'rqg.grpContacted': 'Station contactée', 'rqg.grpQsl': 'QSL', 'rqg.grpLotw': 'LoTW', 'rqg.grpEqsl': 'eQSL', 'rqg.grpUploads': 'Envois', 'rqg.grpContest': 'Concours', 'rqg.grpProp': 'Propagation', 'rqg.grpMyStation': 'Ma station', 'rqg.grpMisc': 'Divers', 'rqg.grpAwards': 'Diplômes', 'rqg.awardTip': '{name} — référence comptée pour ce QSO', 'rqg.clearFiltersTitle': 'Effacer tous les filtres de colonne', 'rqg.clearFilters': 'Effacer les filtres', 'rqg.columns': 'Colonnes', 'rqg.pickerDesc': 'Choisissez les colonnes à afficher dans le tableau des QSO récents. Votre sélection est enregistrée.', 'rqg.all': 'tout', 'rqg.none': 'aucun', 'rqg.resetDefaults': 'Réinitialiser', 'rqg.done': 'Terminé',
|
||||
|
||||
@@ -5,11 +5,11 @@ import { writeUiPref } from './uiPref';
|
||||
// CSS variables in style.css key off of. 'auto' follows the OS light/dark
|
||||
// preference. The choice is persisted (localStorage + portable UI pref, so it
|
||||
// travels with the data/ folder like the language).
|
||||
export type ThemeChoice = 'auto' | 'light-warm' | 'dark-warm' | 'dark-graphite' | 'high-contrast';
|
||||
export type ThemeChoice = 'auto' | 'light-warm' | 'light-cool' | 'light-sage' | 'dim-slate' | 'dark-warm' | 'dark-graphite' | 'high-contrast';
|
||||
|
||||
// Selectable, concrete themes (excludes 'auto') in display order.
|
||||
export const CONCRETE_THEMES: Exclude<ThemeChoice, 'auto'>[] = [
|
||||
'light-warm', 'dark-warm', 'dark-graphite', 'high-contrast',
|
||||
'light-warm', 'light-cool', 'light-sage', 'dim-slate', 'dark-warm', 'dark-graphite', 'high-contrast',
|
||||
];
|
||||
|
||||
export const LS_KEY = 'opslog.theme';
|
||||
|
||||
@@ -92,6 +92,207 @@
|
||||
color-scheme: light;
|
||||
}
|
||||
|
||||
/* ---- Theme 1b: Cool light (slate/blue) — crisp daylight, neutral cool --- */
|
||||
[data-theme="light-cool"] {
|
||||
--background: #f4f6f8; /* cool blue-white */
|
||||
--foreground: #0f172a; /* slate-900 */
|
||||
--card: #ffffff;
|
||||
--card-foreground: #0f172a;
|
||||
--popover: #ffffff;
|
||||
--popover-foreground: #0f172a;
|
||||
--primary: #2563eb; /* blue-600 */
|
||||
--primary-foreground: #ffffff;
|
||||
--secondary: #e2e8f0; /* slate-200 */
|
||||
--secondary-foreground: #0f172a;
|
||||
--muted: #e6ebf1; /* toolbars / table headers */
|
||||
--muted-foreground: #475569; /* slate-600 — readable on muted */
|
||||
--accent: #dbeafe; /* blue-100 */
|
||||
--accent-foreground: #1e3a8a; /* blue-900 */
|
||||
--destructive: #dc2626;
|
||||
--destructive-foreground: #ffffff;
|
||||
--destructive-muted: #fef2f2;
|
||||
--destructive-muted-foreground: #b91c1c;
|
||||
--border: #d3dae2; /* cool slate border */
|
||||
--input: #d3dae2;
|
||||
--ring: #3b82f6; /* blue-500 focus ring */
|
||||
|
||||
--success: #16a34a;
|
||||
--success-foreground: #ffffff;
|
||||
--success-muted: #dcfce7;
|
||||
--success-muted-foreground: #166534;
|
||||
--success-border: #86efac;
|
||||
|
||||
--warning: #d97706;
|
||||
--warning-foreground: #ffffff;
|
||||
--warning-muted: #fef3c7;
|
||||
--warning-muted-foreground: #92400e;
|
||||
--warning-border: #fcd34d;
|
||||
|
||||
--caution: #ca8a04;
|
||||
--caution-foreground: #1c1917;
|
||||
--caution-muted: #fef9c3;
|
||||
--caution-muted-foreground: #854d0e;
|
||||
--caution-border: #fde047;
|
||||
|
||||
--danger: #e11d48;
|
||||
--danger-foreground: #ffffff;
|
||||
--danger-muted: #ffe4e6;
|
||||
--danger-muted-foreground: #9f1239;
|
||||
--danger-border: #fda4af;
|
||||
|
||||
--info: #0284c7;
|
||||
--info-foreground: #ffffff;
|
||||
--info-muted: #e0f2fe;
|
||||
--info-muted-foreground: #075985;
|
||||
--info-border: #7dd3fc;
|
||||
|
||||
/* Band/mode matrix (BandSlotGrid) — emerald/indigo ramp, cool neutral base. */
|
||||
--mx-call-conf: #15803d;
|
||||
--mx-call-work: #6ee7b7;
|
||||
--mx-dx-conf: #3730a3;
|
||||
--mx-dx-work: #a5b4fc;
|
||||
--mx-none: #e2e8f0;
|
||||
|
||||
--scrollbar-thumb: #b6c2d1;
|
||||
--scrollbar-thumb-hover: #8fa1b5;
|
||||
--card-shadow: 0 1px 2px rgba(15, 23, 42, 0.06), 0 0 0 1px rgba(15, 23, 42, 0.02);
|
||||
color-scheme: light;
|
||||
}
|
||||
|
||||
/* ---- Theme 1c: Sage light (Nordic) — soft green-grey, low-fatigue ------- */
|
||||
[data-theme="light-sage"] {
|
||||
--background: #eef1ec; /* pale sage */
|
||||
--foreground: #1a2420; /* deep pine-ink */
|
||||
--card: #f8faf6; /* lifted off-white with a green cast */
|
||||
--card-foreground: #1a2420;
|
||||
--popover: #f8faf6;
|
||||
--popover-foreground: #1a2420;
|
||||
--primary: #2f855a; /* deep sage green */
|
||||
--primary-foreground: #f0fdf4;
|
||||
--secondary: #dde5db;
|
||||
--secondary-foreground: #1a2420;
|
||||
--muted: #dde5db; /* toolbars / table headers */
|
||||
--muted-foreground: #445048; /* muted pine — readable on muted */
|
||||
--accent: #d7e8d5; /* soft green */
|
||||
--accent-foreground: #1e4634; /* forest-900 */
|
||||
--destructive: #b91c1c;
|
||||
--destructive-foreground: #ffffff;
|
||||
--destructive-muted: #fef2f2;
|
||||
--destructive-muted-foreground: #b91c1c;
|
||||
--border: #cdd8ce; /* soft sage border */
|
||||
--input: #cdd8ce;
|
||||
--ring: #38a169; /* green focus ring */
|
||||
|
||||
--success: #16a34a;
|
||||
--success-foreground: #ffffff;
|
||||
--success-muted: #dcfce7;
|
||||
--success-muted-foreground: #166534;
|
||||
--success-border: #86efac;
|
||||
|
||||
--warning: #d97706;
|
||||
--warning-foreground: #ffffff;
|
||||
--warning-muted: #fef3c7;
|
||||
--warning-muted-foreground: #92400e;
|
||||
--warning-border: #fcd34d;
|
||||
|
||||
--caution: #ca8a04;
|
||||
--caution-foreground: #1c1917;
|
||||
--caution-muted: #fef9c3;
|
||||
--caution-muted-foreground: #854d0e;
|
||||
--caution-border: #fde047;
|
||||
|
||||
--danger: #e11d48;
|
||||
--danger-foreground: #ffffff;
|
||||
--danger-muted: #ffe4e6;
|
||||
--danger-muted-foreground: #9f1239;
|
||||
--danger-border: #fda4af;
|
||||
|
||||
--info: #0284c7;
|
||||
--info-foreground: #ffffff;
|
||||
--info-muted: #e0f2fe;
|
||||
--info-muted-foreground: #075985;
|
||||
--info-border: #7dd3fc;
|
||||
|
||||
/* Band/mode matrix (BandSlotGrid) — emerald/indigo ramp, sage neutral base. */
|
||||
--mx-call-conf: #15803d;
|
||||
--mx-call-work: #6ee7b7;
|
||||
--mx-dx-conf: #3730a3;
|
||||
--mx-dx-work: #a5b4fc;
|
||||
--mx-none: #dde5db;
|
||||
|
||||
--scrollbar-thumb: #b3c2b3;
|
||||
--scrollbar-thumb-hover: #91a591;
|
||||
--card-shadow: 0 1px 2px rgba(26, 36, 32, 0.06), 0 0 0 1px rgba(26, 36, 32, 0.02);
|
||||
color-scheme: light;
|
||||
}
|
||||
|
||||
/* ---- Theme 1d: Dim slate — mid-tone twilight, between light and dark ---- */
|
||||
[data-theme="dim-slate"] {
|
||||
--background: #343b47; /* medium slate — light text, not deep dark */
|
||||
--foreground: #eceef2;
|
||||
--card: #3d4552; /* lifted panel */
|
||||
--card-foreground: #eceef2;
|
||||
--popover: #3d4552;
|
||||
--popover-foreground: #eceef2;
|
||||
--primary: #fb923c; /* orange-400 — brand warmth, pops on slate */
|
||||
--primary-foreground: #241206;
|
||||
--secondary: #454e5c;
|
||||
--secondary-foreground: #eceef2;
|
||||
--muted: #414a58; /* toolbars / table headers */
|
||||
--muted-foreground: #b4bcc9; /* readable on muted */
|
||||
--accent: #495468; /* hover / selection tint */
|
||||
--accent-foreground: #dce3ef;
|
||||
--destructive: #ef4444;
|
||||
--destructive-foreground: #1a0808;
|
||||
--destructive-muted: #3f1f1f;
|
||||
--destructive-muted-foreground: #fca5a5;
|
||||
--border: #4e5867;
|
||||
--input: #4e5867;
|
||||
--ring: #fdba74; /* orange-300 focus ring */
|
||||
|
||||
--success: #34d399;
|
||||
--success-foreground: #06231a;
|
||||
--success-muted: #1c3d34;
|
||||
--success-muted-foreground: #6ee7b7;
|
||||
--success-border: #2a5f4c;
|
||||
|
||||
--warning: #fbbf24;
|
||||
--warning-foreground: #241a06;
|
||||
--warning-muted: #41371a;
|
||||
--warning-muted-foreground: #fcd34d;
|
||||
--warning-border: #5e4d22;
|
||||
|
||||
--caution: #facc15;
|
||||
--caution-foreground: #242006;
|
||||
--caution-muted: #403b1a;
|
||||
--caution-muted-foreground: #fde047;
|
||||
--caution-border: #5b5222;
|
||||
|
||||
--danger: #fb7185;
|
||||
--danger-foreground: #260a11;
|
||||
--danger-muted: #421f28;
|
||||
--danger-muted-foreground: #fda4af;
|
||||
--danger-border: #63303c;
|
||||
|
||||
--info: #38bdf8;
|
||||
--info-foreground: #061f2b;
|
||||
--info-muted: #16384a;
|
||||
--info-muted-foreground: #7dd3fc;
|
||||
--info-border: #1d5670;
|
||||
|
||||
/* Matrix: bright confirmed, medium worked, slate not-worked (sits on dim). */
|
||||
--mx-call-conf: #22c55e;
|
||||
--mx-call-work: #2f7d55;
|
||||
--mx-dx-conf: #6366f1;
|
||||
--mx-dx-work: #3f3f8a;
|
||||
--mx-none: #4a5262;
|
||||
|
||||
--scrollbar-thumb: #565f70;
|
||||
--scrollbar-thumb-hover: #6b7588;
|
||||
--card-shadow: 0 1px 2px rgba(0, 0, 0, 0.35), 0 0 0 1px rgba(236, 238, 242, 0.05);
|
||||
color-scheme: dark;
|
||||
}
|
||||
|
||||
/* ---- Theme 2: Warm dark (espresso) — same soul, night mode ------------- */
|
||||
[data-theme="dark-warm"] {
|
||||
--background: #221d18;
|
||||
|
||||
@@ -1,6 +1,6 @@
|
||||
// Single source of truth for the app version shown in the UI (header + About).
|
||||
// Bump this on a release (the release script updates it alongside telemetry.go).
|
||||
export const APP_VERSION = '0.17';
|
||||
export const APP_VERSION = '0.19.5';
|
||||
|
||||
// Author / credits, shown in Help -> About.
|
||||
export const APP_AUTHOR = 'F4BPO';
|
||||
|
||||
Vendored
+68
@@ -11,12 +11,14 @@ import {awardref} from '../models';
|
||||
import {cluster} from '../models';
|
||||
import {extsvc} from '../models';
|
||||
import {powergenius} from '../models';
|
||||
import {solar} from '../models';
|
||||
import {winkeyer} from '../models';
|
||||
import {alerts} from '../models';
|
||||
import {audio} from '../models';
|
||||
import {contest} from '../models';
|
||||
import {operating} from '../models';
|
||||
import {udp} from '../models';
|
||||
import {lotwusers} from '../models';
|
||||
import {lookup} from '../models';
|
||||
import {netctl} from '../models';
|
||||
|
||||
@@ -36,6 +38,18 @@ export function ApplyAwardPreset(arg1:string,arg2:string):Promise<number>;
|
||||
|
||||
export function AssignAwardRefToQSOs(arg1:string,arg2:string,arg3:Array<number>):Promise<number>;
|
||||
|
||||
export function AudioMonitorActive():Promise<boolean>;
|
||||
|
||||
export function AudioStartMonitor():Promise<void>;
|
||||
|
||||
export function AudioStartTX():Promise<void>;
|
||||
|
||||
export function AudioStopMonitor():Promise<void>;
|
||||
|
||||
export function AudioStopTX():Promise<void>;
|
||||
|
||||
export function AudioTXActive():Promise<boolean>;
|
||||
|
||||
export function AwardCellQSOs(arg1:string,arg2:string,arg3:string):Promise<Array<qso.QSO>>;
|
||||
|
||||
export function AwardFields():Promise<Array<string>>;
|
||||
@@ -126,6 +140,8 @@ export function DownloadClublogCty():Promise<main.ClublogCtyInfo>;
|
||||
|
||||
export function DownloadConfirmations(arg1:string,arg2:boolean,arg3:string):Promise<void>;
|
||||
|
||||
export function DownloadLoTWUsers():Promise<number>;
|
||||
|
||||
export function DuplicateProfile(arg1:number,arg2:string):Promise<profile.Profile>;
|
||||
|
||||
export function ExportADIF(arg1:string,arg2:boolean):Promise<adif.ExportResult>;
|
||||
@@ -172,6 +188,8 @@ export function FlexSetAPFLevel(arg1:number):Promise<void>;
|
||||
|
||||
export function FlexSetATUMemories(arg1:boolean):Promise<void>;
|
||||
|
||||
export function FlexSetActiveSlice(arg1:number):Promise<void>;
|
||||
|
||||
export function FlexSetAudioLevel(arg1:number):Promise<void>;
|
||||
|
||||
export function FlexSetCWBreakInDelay(arg1:number):Promise<void>;
|
||||
@@ -188,6 +206,8 @@ export function FlexSetFilter(arg1:number,arg2:number):Promise<void>;
|
||||
|
||||
export function FlexSetMic(arg1:number):Promise<void>;
|
||||
|
||||
export function FlexSetMicProfile(arg1:string):Promise<void>;
|
||||
|
||||
export function FlexSetMon(arg1:boolean):Promise<void>;
|
||||
|
||||
export function FlexSetMonLevel(arg1:number):Promise<void>;
|
||||
@@ -216,6 +236,10 @@ export function FlexSetSplit(arg1:boolean):Promise<void>;
|
||||
|
||||
export function FlexSetTXAntenna(arg1:string):Promise<void>;
|
||||
|
||||
export function FlexSetTXFilter(arg1:number,arg2:number):Promise<void>;
|
||||
|
||||
export function FlexSetTXSlice(arg1:number):Promise<void>;
|
||||
|
||||
export function FlexSetTunePower(arg1:number):Promise<void>;
|
||||
|
||||
export function FlexSetVox(arg1:boolean):Promise<void>;
|
||||
@@ -224,6 +248,10 @@ export function FlexSetVoxDelay(arg1:number):Promise<void>;
|
||||
|
||||
export function FlexSetVoxLevel(arg1:number):Promise<void>;
|
||||
|
||||
export function FlexSetWNB(arg1:boolean):Promise<void>;
|
||||
|
||||
export function FlexSetWNBLevel(arg1:number):Promise<void>;
|
||||
|
||||
export function FlexTune(arg1:boolean):Promise<void>;
|
||||
|
||||
export function GetActiveProfile():Promise<profile.Profile>;
|
||||
@@ -294,6 +322,8 @@ export function GetListsSettings():Promise<main.ListsSettings>;
|
||||
|
||||
export function GetLiveStatusEnabled():Promise<boolean>;
|
||||
|
||||
export function GetLoTWUsersStatus():Promise<main.LoTWUsersStatus>;
|
||||
|
||||
export function GetLogFilePath():Promise<string>;
|
||||
|
||||
export function GetLogbookRevision():Promise<string>;
|
||||
@@ -320,6 +350,8 @@ export function GetRotatorSettings():Promise<main.RotatorSettings>;
|
||||
|
||||
export function GetSecretStatus():Promise<main.SecretStatus>;
|
||||
|
||||
export function GetSolarData():Promise<solar.Data>;
|
||||
|
||||
export function GetStartupStatus():Promise<main.StartupStatus>;
|
||||
|
||||
export function GetStationSettings():Promise<main.StationSettings>;
|
||||
@@ -350,16 +382,32 @@ export function IcomSetAGC(arg1:string):Promise<void>;
|
||||
|
||||
export function IcomSetANF(arg1:boolean):Promise<void>;
|
||||
|
||||
export function IcomSetAPF(arg1:boolean):Promise<void>;
|
||||
|
||||
export function IcomSetAntenna(arg1:number):Promise<void>;
|
||||
|
||||
export function IcomSetAntiVOX(arg1:number):Promise<void>;
|
||||
|
||||
export function IcomSetAtt(arg1:number):Promise<void>;
|
||||
|
||||
export function IcomSetBreakIn(arg1:number):Promise<void>;
|
||||
|
||||
export function IcomSetComp(arg1:boolean):Promise<void>;
|
||||
|
||||
export function IcomSetCompLevel(arg1:number):Promise<void>;
|
||||
|
||||
export function IcomSetFilter(arg1:number):Promise<void>;
|
||||
|
||||
export function IcomSetKeySpeed(arg1:number):Promise<void>;
|
||||
|
||||
export function IcomSetManualNotch(arg1:boolean):Promise<void>;
|
||||
|
||||
export function IcomSetMicGain(arg1:number):Promise<void>;
|
||||
|
||||
export function IcomSetMonLevel(arg1:number):Promise<void>;
|
||||
|
||||
export function IcomSetMonitor(arg1:boolean):Promise<void>;
|
||||
|
||||
export function IcomSetNB(arg1:boolean):Promise<void>;
|
||||
|
||||
export function IcomSetNBLevel(arg1:number):Promise<void>;
|
||||
@@ -368,8 +416,16 @@ export function IcomSetNR(arg1:boolean):Promise<void>;
|
||||
|
||||
export function IcomSetNRLevel(arg1:number):Promise<void>;
|
||||
|
||||
export function IcomSetNotchPos(arg1:number):Promise<void>;
|
||||
|
||||
export function IcomSetPBTInner(arg1:number):Promise<void>;
|
||||
|
||||
export function IcomSetPBTOuter(arg1:number):Promise<void>;
|
||||
|
||||
export function IcomSetPTT(arg1:boolean):Promise<void>;
|
||||
|
||||
export function IcomSetPower(arg1:boolean):Promise<void>;
|
||||
|
||||
export function IcomSetPreamp(arg1:number):Promise<void>;
|
||||
|
||||
export function IcomSetRFGain(arg1:number):Promise<void>;
|
||||
@@ -382,10 +438,18 @@ export function IcomSetRITOn(arg1:boolean):Promise<void>;
|
||||
|
||||
export function IcomSetScope(arg1:boolean):Promise<void>;
|
||||
|
||||
export function IcomSetScopeEdges(arg1:number,arg2:number):Promise<void>;
|
||||
|
||||
export function IcomSetScopeMode(arg1:boolean):Promise<void>;
|
||||
|
||||
export function IcomSetSplit(arg1:boolean):Promise<void>;
|
||||
|
||||
export function IcomSetSquelch(arg1:number):Promise<void>;
|
||||
|
||||
export function IcomSetVOX(arg1:boolean):Promise<void>;
|
||||
|
||||
export function IcomSetVOXGain(arg1:number):Promise<void>;
|
||||
|
||||
export function IcomSetXITOn(arg1:boolean):Promise<void>;
|
||||
|
||||
export function IcomStopCW():Promise<void>;
|
||||
@@ -430,6 +494,8 @@ export function ListTQSLStationLocations():Promise<Array<extsvc.StationLocation>
|
||||
|
||||
export function ListUDPIntegrations():Promise<Array<udp.Config>>;
|
||||
|
||||
export function LoTWUserInfo(arg1:string):Promise<lotwusers.Info>;
|
||||
|
||||
export function LogUDPLoggedADIF(arg1:string):Promise<number>;
|
||||
|
||||
export function LookupCallsign(arg1:string):Promise<lookup.Result>;
|
||||
@@ -536,6 +602,8 @@ export function QuitApp():Promise<void>;
|
||||
|
||||
export function RefreshCtyDat():Promise<main.CtyDatInfo>;
|
||||
|
||||
export function RefreshSolar():Promise<void>;
|
||||
|
||||
export function ReloadUDPIntegrations():Promise<Array<string>>;
|
||||
|
||||
export function RemovePassphrase(arg1:string):Promise<void>;
|
||||
|
||||
@@ -34,6 +34,30 @@ export function AssignAwardRefToQSOs(arg1, arg2, arg3) {
|
||||
return window['go']['main']['App']['AssignAwardRefToQSOs'](arg1, arg2, arg3);
|
||||
}
|
||||
|
||||
export function AudioMonitorActive() {
|
||||
return window['go']['main']['App']['AudioMonitorActive']();
|
||||
}
|
||||
|
||||
export function AudioStartMonitor() {
|
||||
return window['go']['main']['App']['AudioStartMonitor']();
|
||||
}
|
||||
|
||||
export function AudioStartTX() {
|
||||
return window['go']['main']['App']['AudioStartTX']();
|
||||
}
|
||||
|
||||
export function AudioStopMonitor() {
|
||||
return window['go']['main']['App']['AudioStopMonitor']();
|
||||
}
|
||||
|
||||
export function AudioStopTX() {
|
||||
return window['go']['main']['App']['AudioStopTX']();
|
||||
}
|
||||
|
||||
export function AudioTXActive() {
|
||||
return window['go']['main']['App']['AudioTXActive']();
|
||||
}
|
||||
|
||||
export function AwardCellQSOs(arg1, arg2, arg3) {
|
||||
return window['go']['main']['App']['AwardCellQSOs'](arg1, arg2, arg3);
|
||||
}
|
||||
@@ -214,6 +238,10 @@ export function DownloadConfirmations(arg1, arg2, arg3) {
|
||||
return window['go']['main']['App']['DownloadConfirmations'](arg1, arg2, arg3);
|
||||
}
|
||||
|
||||
export function DownloadLoTWUsers() {
|
||||
return window['go']['main']['App']['DownloadLoTWUsers']();
|
||||
}
|
||||
|
||||
export function DuplicateProfile(arg1, arg2) {
|
||||
return window['go']['main']['App']['DuplicateProfile'](arg1, arg2);
|
||||
}
|
||||
@@ -306,6 +334,10 @@ export function FlexSetATUMemories(arg1) {
|
||||
return window['go']['main']['App']['FlexSetATUMemories'](arg1);
|
||||
}
|
||||
|
||||
export function FlexSetActiveSlice(arg1) {
|
||||
return window['go']['main']['App']['FlexSetActiveSlice'](arg1);
|
||||
}
|
||||
|
||||
export function FlexSetAudioLevel(arg1) {
|
||||
return window['go']['main']['App']['FlexSetAudioLevel'](arg1);
|
||||
}
|
||||
@@ -338,6 +370,10 @@ export function FlexSetMic(arg1) {
|
||||
return window['go']['main']['App']['FlexSetMic'](arg1);
|
||||
}
|
||||
|
||||
export function FlexSetMicProfile(arg1) {
|
||||
return window['go']['main']['App']['FlexSetMicProfile'](arg1);
|
||||
}
|
||||
|
||||
export function FlexSetMon(arg1) {
|
||||
return window['go']['main']['App']['FlexSetMon'](arg1);
|
||||
}
|
||||
@@ -394,6 +430,14 @@ export function FlexSetTXAntenna(arg1) {
|
||||
return window['go']['main']['App']['FlexSetTXAntenna'](arg1);
|
||||
}
|
||||
|
||||
export function FlexSetTXFilter(arg1, arg2) {
|
||||
return window['go']['main']['App']['FlexSetTXFilter'](arg1, arg2);
|
||||
}
|
||||
|
||||
export function FlexSetTXSlice(arg1) {
|
||||
return window['go']['main']['App']['FlexSetTXSlice'](arg1);
|
||||
}
|
||||
|
||||
export function FlexSetTunePower(arg1) {
|
||||
return window['go']['main']['App']['FlexSetTunePower'](arg1);
|
||||
}
|
||||
@@ -410,6 +454,14 @@ export function FlexSetVoxLevel(arg1) {
|
||||
return window['go']['main']['App']['FlexSetVoxLevel'](arg1);
|
||||
}
|
||||
|
||||
export function FlexSetWNB(arg1) {
|
||||
return window['go']['main']['App']['FlexSetWNB'](arg1);
|
||||
}
|
||||
|
||||
export function FlexSetWNBLevel(arg1) {
|
||||
return window['go']['main']['App']['FlexSetWNBLevel'](arg1);
|
||||
}
|
||||
|
||||
export function FlexTune(arg1) {
|
||||
return window['go']['main']['App']['FlexTune'](arg1);
|
||||
}
|
||||
@@ -550,6 +602,10 @@ export function GetLiveStatusEnabled() {
|
||||
return window['go']['main']['App']['GetLiveStatusEnabled']();
|
||||
}
|
||||
|
||||
export function GetLoTWUsersStatus() {
|
||||
return window['go']['main']['App']['GetLoTWUsersStatus']();
|
||||
}
|
||||
|
||||
export function GetLogFilePath() {
|
||||
return window['go']['main']['App']['GetLogFilePath']();
|
||||
}
|
||||
@@ -602,6 +658,10 @@ export function GetSecretStatus() {
|
||||
return window['go']['main']['App']['GetSecretStatus']();
|
||||
}
|
||||
|
||||
export function GetSolarData() {
|
||||
return window['go']['main']['App']['GetSolarData']();
|
||||
}
|
||||
|
||||
export function GetStartupStatus() {
|
||||
return window['go']['main']['App']['GetStartupStatus']();
|
||||
}
|
||||
@@ -662,6 +722,18 @@ export function IcomSetANF(arg1) {
|
||||
return window['go']['main']['App']['IcomSetANF'](arg1);
|
||||
}
|
||||
|
||||
export function IcomSetAPF(arg1) {
|
||||
return window['go']['main']['App']['IcomSetAPF'](arg1);
|
||||
}
|
||||
|
||||
export function IcomSetAntenna(arg1) {
|
||||
return window['go']['main']['App']['IcomSetAntenna'](arg1);
|
||||
}
|
||||
|
||||
export function IcomSetAntiVOX(arg1) {
|
||||
return window['go']['main']['App']['IcomSetAntiVOX'](arg1);
|
||||
}
|
||||
|
||||
export function IcomSetAtt(arg1) {
|
||||
return window['go']['main']['App']['IcomSetAtt'](arg1);
|
||||
}
|
||||
@@ -670,6 +742,14 @@ export function IcomSetBreakIn(arg1) {
|
||||
return window['go']['main']['App']['IcomSetBreakIn'](arg1);
|
||||
}
|
||||
|
||||
export function IcomSetComp(arg1) {
|
||||
return window['go']['main']['App']['IcomSetComp'](arg1);
|
||||
}
|
||||
|
||||
export function IcomSetCompLevel(arg1) {
|
||||
return window['go']['main']['App']['IcomSetCompLevel'](arg1);
|
||||
}
|
||||
|
||||
export function IcomSetFilter(arg1) {
|
||||
return window['go']['main']['App']['IcomSetFilter'](arg1);
|
||||
}
|
||||
@@ -678,10 +758,22 @@ export function IcomSetKeySpeed(arg1) {
|
||||
return window['go']['main']['App']['IcomSetKeySpeed'](arg1);
|
||||
}
|
||||
|
||||
export function IcomSetManualNotch(arg1) {
|
||||
return window['go']['main']['App']['IcomSetManualNotch'](arg1);
|
||||
}
|
||||
|
||||
export function IcomSetMicGain(arg1) {
|
||||
return window['go']['main']['App']['IcomSetMicGain'](arg1);
|
||||
}
|
||||
|
||||
export function IcomSetMonLevel(arg1) {
|
||||
return window['go']['main']['App']['IcomSetMonLevel'](arg1);
|
||||
}
|
||||
|
||||
export function IcomSetMonitor(arg1) {
|
||||
return window['go']['main']['App']['IcomSetMonitor'](arg1);
|
||||
}
|
||||
|
||||
export function IcomSetNB(arg1) {
|
||||
return window['go']['main']['App']['IcomSetNB'](arg1);
|
||||
}
|
||||
@@ -698,10 +790,26 @@ export function IcomSetNRLevel(arg1) {
|
||||
return window['go']['main']['App']['IcomSetNRLevel'](arg1);
|
||||
}
|
||||
|
||||
export function IcomSetNotchPos(arg1) {
|
||||
return window['go']['main']['App']['IcomSetNotchPos'](arg1);
|
||||
}
|
||||
|
||||
export function IcomSetPBTInner(arg1) {
|
||||
return window['go']['main']['App']['IcomSetPBTInner'](arg1);
|
||||
}
|
||||
|
||||
export function IcomSetPBTOuter(arg1) {
|
||||
return window['go']['main']['App']['IcomSetPBTOuter'](arg1);
|
||||
}
|
||||
|
||||
export function IcomSetPTT(arg1) {
|
||||
return window['go']['main']['App']['IcomSetPTT'](arg1);
|
||||
}
|
||||
|
||||
export function IcomSetPower(arg1) {
|
||||
return window['go']['main']['App']['IcomSetPower'](arg1);
|
||||
}
|
||||
|
||||
export function IcomSetPreamp(arg1) {
|
||||
return window['go']['main']['App']['IcomSetPreamp'](arg1);
|
||||
}
|
||||
@@ -726,6 +834,10 @@ export function IcomSetScope(arg1) {
|
||||
return window['go']['main']['App']['IcomSetScope'](arg1);
|
||||
}
|
||||
|
||||
export function IcomSetScopeEdges(arg1, arg2) {
|
||||
return window['go']['main']['App']['IcomSetScopeEdges'](arg1, arg2);
|
||||
}
|
||||
|
||||
export function IcomSetScopeMode(arg1) {
|
||||
return window['go']['main']['App']['IcomSetScopeMode'](arg1);
|
||||
}
|
||||
@@ -734,6 +846,18 @@ export function IcomSetSplit(arg1) {
|
||||
return window['go']['main']['App']['IcomSetSplit'](arg1);
|
||||
}
|
||||
|
||||
export function IcomSetSquelch(arg1) {
|
||||
return window['go']['main']['App']['IcomSetSquelch'](arg1);
|
||||
}
|
||||
|
||||
export function IcomSetVOX(arg1) {
|
||||
return window['go']['main']['App']['IcomSetVOX'](arg1);
|
||||
}
|
||||
|
||||
export function IcomSetVOXGain(arg1) {
|
||||
return window['go']['main']['App']['IcomSetVOXGain'](arg1);
|
||||
}
|
||||
|
||||
export function IcomSetXITOn(arg1) {
|
||||
return window['go']['main']['App']['IcomSetXITOn'](arg1);
|
||||
}
|
||||
@@ -822,6 +946,10 @@ export function ListUDPIntegrations() {
|
||||
return window['go']['main']['App']['ListUDPIntegrations']();
|
||||
}
|
||||
|
||||
export function LoTWUserInfo(arg1) {
|
||||
return window['go']['main']['App']['LoTWUserInfo'](arg1);
|
||||
}
|
||||
|
||||
export function LogUDPLoggedADIF(arg1) {
|
||||
return window['go']['main']['App']['LogUDPLoggedADIF'](arg1);
|
||||
}
|
||||
@@ -1034,6 +1162,10 @@ export function RefreshCtyDat() {
|
||||
return window['go']['main']['App']['RefreshCtyDat']();
|
||||
}
|
||||
|
||||
export function RefreshSolar() {
|
||||
return window['go']['main']['App']['RefreshSolar']();
|
||||
}
|
||||
|
||||
export function ReloadUDPIntegrations() {
|
||||
return window['go']['main']['App']['ReloadUDPIntegrations']();
|
||||
}
|
||||
|
||||
@@ -117,6 +117,7 @@ export namespace antgenius {
|
||||
export class Antenna {
|
||||
index: number;
|
||||
name: string;
|
||||
bands: number;
|
||||
|
||||
static createFrom(source: any = {}) {
|
||||
return new Antenna(source);
|
||||
@@ -126,6 +127,7 @@ export namespace antgenius {
|
||||
if ('string' === typeof source) source = JSON.parse(source);
|
||||
this.index = source["index"];
|
||||
this.name = source["name"];
|
||||
this.bands = source["bands"];
|
||||
}
|
||||
}
|
||||
export class Status {
|
||||
@@ -250,6 +252,7 @@ export namespace award {
|
||||
valid_from?: string;
|
||||
valid_to?: string;
|
||||
alias?: string;
|
||||
ref_display?: string;
|
||||
type?: string;
|
||||
field: string;
|
||||
match_by?: string;
|
||||
@@ -289,6 +292,7 @@ export namespace award {
|
||||
this.valid_from = source["valid_from"];
|
||||
this.valid_to = source["valid_to"];
|
||||
this.alias = source["alias"];
|
||||
this.ref_display = source["ref_display"];
|
||||
this.type = source["type"];
|
||||
this.field = source["field"];
|
||||
this.match_by = source["match_by"];
|
||||
@@ -500,6 +504,7 @@ export namespace cat {
|
||||
src?: string;
|
||||
name?: string;
|
||||
unit?: string;
|
||||
slice: number;
|
||||
value: number;
|
||||
lo: number;
|
||||
hi: number;
|
||||
@@ -514,6 +519,7 @@ export namespace cat {
|
||||
this.src = source["src"];
|
||||
this.name = source["name"];
|
||||
this.unit = source["unit"];
|
||||
this.slice = source["slice"];
|
||||
this.value = source["value"];
|
||||
this.lo = source["lo"];
|
||||
this.hi = source["hi"];
|
||||
@@ -541,9 +547,34 @@ export namespace cat {
|
||||
this.callsign = source["callsign"];
|
||||
}
|
||||
}
|
||||
export class FlexSliceInfo {
|
||||
index: number;
|
||||
letter: string;
|
||||
freq_hz: number;
|
||||
mode?: string;
|
||||
band?: string;
|
||||
active: boolean;
|
||||
tx: boolean;
|
||||
|
||||
static createFrom(source: any = {}) {
|
||||
return new FlexSliceInfo(source);
|
||||
}
|
||||
|
||||
constructor(source: any = {}) {
|
||||
if ('string' === typeof source) source = JSON.parse(source);
|
||||
this.index = source["index"];
|
||||
this.letter = source["letter"];
|
||||
this.freq_hz = source["freq_hz"];
|
||||
this.mode = source["mode"];
|
||||
this.band = source["band"];
|
||||
this.active = source["active"];
|
||||
this.tx = source["tx"];
|
||||
}
|
||||
}
|
||||
export class FlexTXState {
|
||||
available: boolean;
|
||||
model?: string;
|
||||
slices?: FlexSliceInfo[];
|
||||
rf_power: number;
|
||||
tune_power: number;
|
||||
tune: boolean;
|
||||
@@ -556,6 +587,10 @@ export namespace cat {
|
||||
mon: boolean;
|
||||
mon_level: number;
|
||||
mic_level: number;
|
||||
tx_filter_low: number;
|
||||
tx_filter_high: number;
|
||||
mic_profile?: string;
|
||||
mic_profiles?: string[];
|
||||
atu_status?: string;
|
||||
atu_memories: boolean;
|
||||
rx_avail: boolean;
|
||||
@@ -576,6 +611,8 @@ export namespace cat {
|
||||
nr_level: number;
|
||||
anf: boolean;
|
||||
anf_level: number;
|
||||
wnb: boolean;
|
||||
wnb_level: number;
|
||||
mode?: string;
|
||||
cw_speed: number;
|
||||
cw_pitch: number;
|
||||
@@ -600,6 +637,7 @@ export namespace cat {
|
||||
if ('string' === typeof source) source = JSON.parse(source);
|
||||
this.available = source["available"];
|
||||
this.model = source["model"];
|
||||
this.slices = this.convertValues(source["slices"], FlexSliceInfo);
|
||||
this.rf_power = source["rf_power"];
|
||||
this.tune_power = source["tune_power"];
|
||||
this.tune = source["tune"];
|
||||
@@ -612,6 +650,10 @@ export namespace cat {
|
||||
this.mon = source["mon"];
|
||||
this.mon_level = source["mon_level"];
|
||||
this.mic_level = source["mic_level"];
|
||||
this.tx_filter_low = source["tx_filter_low"];
|
||||
this.tx_filter_high = source["tx_filter_high"];
|
||||
this.mic_profile = source["mic_profile"];
|
||||
this.mic_profiles = source["mic_profiles"];
|
||||
this.atu_status = source["atu_status"];
|
||||
this.atu_memories = source["atu_memories"];
|
||||
this.rx_avail = source["rx_avail"];
|
||||
@@ -632,6 +674,8 @@ export namespace cat {
|
||||
this.nr_level = source["nr_level"];
|
||||
this.anf = source["anf"];
|
||||
this.anf_level = source["anf_level"];
|
||||
this.wnb = source["wnb"];
|
||||
this.wnb_level = source["wnb_level"];
|
||||
this.mode = source["mode"];
|
||||
this.cw_speed = source["cw_speed"];
|
||||
this.cw_pitch = source["cw_pitch"];
|
||||
@@ -690,10 +734,24 @@ export namespace cat {
|
||||
nr: boolean;
|
||||
nr_level: number;
|
||||
anf: boolean;
|
||||
apf: boolean;
|
||||
agc?: string;
|
||||
preamp: number;
|
||||
att: number;
|
||||
filter: number;
|
||||
antenna: number;
|
||||
pbt_inner: number;
|
||||
pbt_outer: number;
|
||||
manual_notch: boolean;
|
||||
notch_pos: number;
|
||||
squelch: number;
|
||||
comp: boolean;
|
||||
comp_level: number;
|
||||
monitor: boolean;
|
||||
mon_level: number;
|
||||
vox: boolean;
|
||||
vox_gain: number;
|
||||
anti_vox: number;
|
||||
|
||||
static createFrom(source: any = {}) {
|
||||
return new IcomTXState(source);
|
||||
@@ -723,10 +781,24 @@ export namespace cat {
|
||||
this.nr = source["nr"];
|
||||
this.nr_level = source["nr_level"];
|
||||
this.anf = source["anf"];
|
||||
this.apf = source["apf"];
|
||||
this.agc = source["agc"];
|
||||
this.preamp = source["preamp"];
|
||||
this.att = source["att"];
|
||||
this.filter = source["filter"];
|
||||
this.antenna = source["antenna"];
|
||||
this.pbt_inner = source["pbt_inner"];
|
||||
this.pbt_outer = source["pbt_outer"];
|
||||
this.manual_notch = source["manual_notch"];
|
||||
this.notch_pos = source["notch_pos"];
|
||||
this.squelch = source["squelch"];
|
||||
this.comp = source["comp"];
|
||||
this.comp_level = source["comp_level"];
|
||||
this.monitor = source["monitor"];
|
||||
this.mon_level = source["mon_level"];
|
||||
this.vox = source["vox"];
|
||||
this.vox_gain = source["vox_gain"];
|
||||
this.anti_vox = source["anti_vox"];
|
||||
}
|
||||
}
|
||||
export class RigState {
|
||||
@@ -1084,6 +1156,27 @@ export namespace lookup {
|
||||
|
||||
}
|
||||
|
||||
export namespace lotwusers {
|
||||
|
||||
export class Info {
|
||||
is_user: boolean;
|
||||
last_upload?: string;
|
||||
days_ago: number;
|
||||
|
||||
static createFrom(source: any = {}) {
|
||||
return new Info(source);
|
||||
}
|
||||
|
||||
constructor(source: any = {}) {
|
||||
if ('string' === typeof source) source = JSON.parse(source);
|
||||
this.is_user = source["is_user"];
|
||||
this.last_upload = source["last_upload"];
|
||||
this.days_ago = source["days_ago"];
|
||||
}
|
||||
}
|
||||
|
||||
}
|
||||
|
||||
export namespace main {
|
||||
|
||||
export class AntGeniusSettings {
|
||||
@@ -1287,9 +1380,15 @@ export namespace main {
|
||||
flex_host: string;
|
||||
flex_port: number;
|
||||
flex_spots: boolean;
|
||||
flex_decode_spots: boolean;
|
||||
flex_decode_secs: number;
|
||||
icom_port: string;
|
||||
icom_baud: number;
|
||||
icom_addr: number;
|
||||
icom_net_host: string;
|
||||
icom_net_user: string;
|
||||
icom_net_pass: string;
|
||||
icom_net_audio: boolean;
|
||||
tci_host: string;
|
||||
tci_port: number;
|
||||
tci_spots: boolean;
|
||||
@@ -1309,9 +1408,15 @@ export namespace main {
|
||||
this.flex_host = source["flex_host"];
|
||||
this.flex_port = source["flex_port"];
|
||||
this.flex_spots = source["flex_spots"];
|
||||
this.flex_decode_spots = source["flex_decode_spots"];
|
||||
this.flex_decode_secs = source["flex_decode_secs"];
|
||||
this.icom_port = source["icom_port"];
|
||||
this.icom_baud = source["icom_baud"];
|
||||
this.icom_addr = source["icom_addr"];
|
||||
this.icom_net_host = source["icom_net_host"];
|
||||
this.icom_net_user = source["icom_net_user"];
|
||||
this.icom_net_pass = source["icom_net_pass"];
|
||||
this.icom_net_audio = source["icom_net_audio"];
|
||||
this.tci_host = source["tci_host"];
|
||||
this.tci_port = source["tci_port"];
|
||||
this.tci_spots = source["tci_spots"];
|
||||
@@ -1660,6 +1765,20 @@ export namespace main {
|
||||
return a;
|
||||
}
|
||||
}
|
||||
export class LoTWUsersStatus {
|
||||
count: number;
|
||||
updated?: string;
|
||||
|
||||
static createFrom(source: any = {}) {
|
||||
return new LoTWUsersStatus(source);
|
||||
}
|
||||
|
||||
constructor(source: any = {}) {
|
||||
if ('string' === typeof source) source = JSON.parse(source);
|
||||
this.count = source["count"];
|
||||
this.updated = source["updated"];
|
||||
}
|
||||
}
|
||||
export class LookupSettings {
|
||||
qrz_user: string;
|
||||
qrz_password: string;
|
||||
@@ -2257,6 +2376,14 @@ export namespace netctl {
|
||||
dxcc?: number;
|
||||
itu?: number;
|
||||
cq?: number;
|
||||
grid?: string;
|
||||
address?: string;
|
||||
state?: string;
|
||||
cnty?: string;
|
||||
cont?: string;
|
||||
lat?: number;
|
||||
lon?: number;
|
||||
email?: string;
|
||||
groups?: string;
|
||||
sig?: string;
|
||||
sig_info?: string;
|
||||
@@ -2274,6 +2401,14 @@ export namespace netctl {
|
||||
this.dxcc = source["dxcc"];
|
||||
this.itu = source["itu"];
|
||||
this.cq = source["cq"];
|
||||
this.grid = source["grid"];
|
||||
this.address = source["address"];
|
||||
this.state = source["state"];
|
||||
this.cnty = source["cnty"];
|
||||
this.cont = source["cont"];
|
||||
this.lat = source["lat"];
|
||||
this.lon = source["lon"];
|
||||
this.email = source["email"];
|
||||
this.groups = source["groups"];
|
||||
this.sig = source["sig"];
|
||||
this.sig_info = source["sig_info"];
|
||||
@@ -3204,6 +3339,66 @@ export namespace qso {
|
||||
|
||||
}
|
||||
|
||||
export namespace solar {
|
||||
|
||||
export class Data {
|
||||
sfi: string;
|
||||
ssn: string;
|
||||
a_index: string;
|
||||
k_index: string;
|
||||
xray: string;
|
||||
geomag_field: string;
|
||||
aurora: string;
|
||||
muf: string;
|
||||
updated: string;
|
||||
source: string;
|
||||
ok: boolean;
|
||||
error?: string;
|
||||
// Go type: time
|
||||
fetched_at: any;
|
||||
|
||||
static createFrom(source: any = {}) {
|
||||
return new Data(source);
|
||||
}
|
||||
|
||||
constructor(source: any = {}) {
|
||||
if ('string' === typeof source) source = JSON.parse(source);
|
||||
this.sfi = source["sfi"];
|
||||
this.ssn = source["ssn"];
|
||||
this.a_index = source["a_index"];
|
||||
this.k_index = source["k_index"];
|
||||
this.xray = source["xray"];
|
||||
this.geomag_field = source["geomag_field"];
|
||||
this.aurora = source["aurora"];
|
||||
this.muf = source["muf"];
|
||||
this.updated = source["updated"];
|
||||
this.source = source["source"];
|
||||
this.ok = source["ok"];
|
||||
this.error = source["error"];
|
||||
this.fetched_at = this.convertValues(source["fetched_at"], null);
|
||||
}
|
||||
|
||||
convertValues(a: any, classs: any, asMap: boolean = false): any {
|
||||
if (!a) {
|
||||
return a;
|
||||
}
|
||||
if (a.slice && a.map) {
|
||||
return (a as any[]).map(elem => this.convertValues(elem, classs));
|
||||
} else if ("object" === typeof a) {
|
||||
if (asMap) {
|
||||
for (const key of Object.keys(a)) {
|
||||
a[key] = new classs(a[key]);
|
||||
}
|
||||
return a;
|
||||
}
|
||||
return new classs(a);
|
||||
}
|
||||
return a;
|
||||
}
|
||||
}
|
||||
|
||||
}
|
||||
|
||||
export namespace udp {
|
||||
|
||||
export class Config {
|
||||
|
||||
@@ -32,9 +32,13 @@ const (
|
||||
)
|
||||
|
||||
// Antenna is one configured antenna (index + name as stored on the device).
|
||||
// Bands is the device's band bitmask for the antenna (which bands it covers);
|
||||
// 0 = unknown/all. The UI uses it to show only band-appropriate antennas, like
|
||||
// the native 4O3A app.
|
||||
type Antenna struct {
|
||||
Index int `json:"index"`
|
||||
Name string `json:"name"`
|
||||
Bands int `json:"bands"`
|
||||
}
|
||||
|
||||
// Status is the snapshot the UI renders.
|
||||
@@ -65,6 +69,8 @@ type Client struct {
|
||||
statusMu sync.RWMutex
|
||||
status Status
|
||||
antennas map[int]string // index → name (rebuilt into status.Antennas)
|
||||
antBands map[int]int // index → band bitmask (which bands the antenna covers)
|
||||
antRawN int // one-shot: how many raw antenna lines we've logged
|
||||
|
||||
stop chan struct{}
|
||||
running bool
|
||||
@@ -80,6 +86,7 @@ func New(host string, port int, password string) *Client {
|
||||
password: strings.TrimSpace(password),
|
||||
stop: make(chan struct{}),
|
||||
antennas: map[int]string{},
|
||||
antBands: map[int]int{},
|
||||
status: Status{Host: host},
|
||||
}
|
||||
}
|
||||
@@ -356,13 +363,24 @@ func (c *Client) parseAntenna(msg string) {
|
||||
// The device stores spaces as underscores in names.
|
||||
name = strings.TrimSpace(strings.ReplaceAll(name, "_", " "))
|
||||
}
|
||||
// Band bitmask: which bands this antenna is configured for. The device sends
|
||||
// it as "band=<mask>" (a bitmask). Kept so the UI can show only band-relevant
|
||||
// antennas (like the native app). Log the first few raw antenna lines so the
|
||||
// exact field name + bit values can be confirmed on real hardware.
|
||||
bands := kvInt(msg, "band")
|
||||
c.statusMu.Lock()
|
||||
if c.antRawN < 8 {
|
||||
c.antRawN++
|
||||
applog.Printf("antgenius: antenna raw #%d: %q (parsed band mask=%d/0x%X)", c.antRawN, msg, bands, bands)
|
||||
}
|
||||
if name != "" && !isPlaceholderName(name) {
|
||||
c.antennas[id] = name
|
||||
c.antBands[id] = bands
|
||||
} else {
|
||||
delete(c.antennas, id) // unconfigured slot ("Antenna 4", etc.) → not shown
|
||||
delete(c.antBands, id)
|
||||
}
|
||||
c.status.Antennas = sortedAntennas(c.antennas)
|
||||
c.status.Antennas = sortedAntennas(c.antennas, c.antBands)
|
||||
c.status.Connected = true
|
||||
c.statusMu.Unlock()
|
||||
}
|
||||
@@ -431,10 +449,10 @@ func isPlaceholderName(name string) bool {
|
||||
return err == nil
|
||||
}
|
||||
|
||||
func sortedAntennas(m map[int]string) []Antenna {
|
||||
func sortedAntennas(m map[int]string, bands map[int]int) []Antenna {
|
||||
out := make([]Antenna, 0, len(m))
|
||||
for idx, name := range m {
|
||||
out = append(out, Antenna{Index: idx, Name: name})
|
||||
out = append(out, Antenna{Index: idx, Name: name, Bands: bands[idx]})
|
||||
}
|
||||
sort.Slice(out, func(i, j int) bool { return out[i].Index < out[j].Index })
|
||||
return out
|
||||
|
||||
@@ -0,0 +1,57 @@
|
||||
package audio
|
||||
|
||||
import "fmt"
|
||||
|
||||
// Codec converts between the wire payload of a network audio stream (Icom 50003)
|
||||
// and OpsLog's internal PCM (16 kHz mono 16-bit little-endian — the format the
|
||||
// capture/render engine and the pcmRing use). It exists so the transport code
|
||||
// (icomaudio.go) never hard-codes a format: today PCM is an identity passthrough;
|
||||
// tomorrow an Opus codec implements the same two methods and drops in unchanged.
|
||||
// This mirrors how civTransport abstracts the CAT byte stream from its transport.
|
||||
type Codec interface {
|
||||
// Name is a short label for logs/UI.
|
||||
Name() string
|
||||
// Decode turns one received audio payload into internal PCM. The returned
|
||||
// slice is freshly allocated (the caller may retain it).
|
||||
Decode(payload []byte) ([]byte, error)
|
||||
// Encode turns internal PCM into a payload to transmit.
|
||||
Encode(pcm []byte) ([]byte, error)
|
||||
}
|
||||
|
||||
// pcm16Codec is the uncompressed 16-bit-PCM codec — the Icom "uncompressed"
|
||||
// audio mode (rxcodec/txcodec in the conninfo). Icom sends little-endian 16-bit
|
||||
// mono samples, which is byte-for-byte OpsLog's internal format, so decode/encode
|
||||
// are copies. It is the Phase-4/5 default: zero-dependency, lossless, ideal on a
|
||||
// LAN. Opus (for WAN/internet bandwidth) becomes another Codec later.
|
||||
//
|
||||
// NOTE: rate conversion is deliberately NOT this layer's job. The Icom RX audio
|
||||
// is 16 kHz = our internal rate, so RX needs none. The rig's TX side may run at a
|
||||
// different rate (the captured conninfo showed 8 kHz) — Phase 5 will resample in
|
||||
// the TX path before Encode; keeping the codec rate-agnostic keeps that concern
|
||||
// in one place.
|
||||
type pcm16Codec struct{}
|
||||
|
||||
// NewPCM16Codec returns the uncompressed 16-bit PCM codec.
|
||||
func NewPCM16Codec() Codec { return pcm16Codec{} }
|
||||
|
||||
func (pcm16Codec) Name() string { return "pcm16" }
|
||||
|
||||
func (pcm16Codec) Decode(payload []byte) ([]byte, error) {
|
||||
// Icom PCM payloads are whole 16-bit samples; an odd length means a truncated
|
||||
// packet — trim the stray byte rather than emit a half-sample click.
|
||||
n := len(payload) &^ 1
|
||||
if n != len(payload) {
|
||||
if n == 0 {
|
||||
return nil, fmt.Errorf("pcm16: payload too short (%d bytes)", len(payload))
|
||||
}
|
||||
}
|
||||
out := make([]byte, n)
|
||||
copy(out, payload[:n])
|
||||
return out, nil
|
||||
}
|
||||
|
||||
func (pcm16Codec) Encode(pcm []byte) ([]byte, error) {
|
||||
out := make([]byte, len(pcm))
|
||||
copy(out, pcm)
|
||||
return out, nil
|
||||
}
|
||||
@@ -0,0 +1,37 @@
|
||||
package audio
|
||||
|
||||
import "testing"
|
||||
|
||||
func TestPCM16CodecRoundTrip(t *testing.T) {
|
||||
c := NewPCM16Codec()
|
||||
in := []byte{0x01, 0x02, 0x03, 0x04, 0xff, 0x7f}
|
||||
enc, err := c.Encode(in)
|
||||
if err != nil {
|
||||
t.Fatalf("encode: %v", err)
|
||||
}
|
||||
dec, err := c.Decode(enc)
|
||||
if err != nil {
|
||||
t.Fatalf("decode: %v", err)
|
||||
}
|
||||
if string(dec) != string(in) {
|
||||
t.Fatalf("round-trip mismatch: got % X want % X", dec, in)
|
||||
}
|
||||
}
|
||||
|
||||
func TestPCM16CodecTrimsOddByte(t *testing.T) {
|
||||
c := NewPCM16Codec()
|
||||
dec, err := c.Decode([]byte{0x10, 0x20, 0x30}) // 3 bytes = 1 sample + stray
|
||||
if err != nil {
|
||||
t.Fatalf("decode: %v", err)
|
||||
}
|
||||
if len(dec) != 2 {
|
||||
t.Fatalf("expected the stray byte trimmed to 2, got %d", len(dec))
|
||||
}
|
||||
}
|
||||
|
||||
func TestPCM16CodecRejectsSingleByte(t *testing.T) {
|
||||
c := NewPCM16Codec()
|
||||
if _, err := c.Decode([]byte{0x10}); err == nil {
|
||||
t.Fatalf("expected an error for a sub-sample payload")
|
||||
}
|
||||
}
|
||||
@@ -5,6 +5,7 @@ package audio
|
||||
import (
|
||||
"fmt"
|
||||
"runtime"
|
||||
"sync"
|
||||
"time"
|
||||
"unsafe"
|
||||
|
||||
@@ -269,3 +270,151 @@ func playPCM(deviceID string, pcm []byte, rate, ch, bits int, stop <-chan struct
|
||||
time.Sleep(10 * time.Millisecond)
|
||||
}
|
||||
}
|
||||
|
||||
// pcmRing is a thread-safe, latency-bounded FIFO of PCM bytes feeding a live
|
||||
// render stream. Producers (a USB-codec capture, or a decoded network audio
|
||||
// stream) Push freshly-arrived samples; the render loop Pulls. It is the shared
|
||||
// hand-off point between "where the audio comes from" (USB device / UDP 50003)
|
||||
// and "where it's heard" (any WASAPI output) — so the transport can be swapped
|
||||
// without touching the render side, mirroring the civTransport split on the CAT
|
||||
// side. On overflow the oldest audio is dropped to keep latency bounded; on
|
||||
// underrun Pull simply returns short and the render loop pads with silence.
|
||||
type pcmRing struct {
|
||||
mu sync.Mutex
|
||||
buf []byte
|
||||
max int // hard cap in bytes (drops oldest beyond this → bounded latency)
|
||||
}
|
||||
|
||||
// newPCMRing makes a ring whose backlog is capped at maxBytes. Size it from the
|
||||
// acceptable latency: bytesPerSec (=32000) worth ≈ 1 s.
|
||||
func newPCMRing(maxBytes int) *pcmRing {
|
||||
if maxBytes <= 0 {
|
||||
maxBytes = bytesPerSec // 1 s default
|
||||
}
|
||||
return &pcmRing{max: maxBytes}
|
||||
}
|
||||
|
||||
// Push appends samples, dropping the oldest audio if the backlog would exceed
|
||||
// the cap (a slow/absent consumer never makes the producer block or grow without
|
||||
// bound). A short glitch beats runaway latency for live monitoring.
|
||||
func (r *pcmRing) Push(p []byte) {
|
||||
if len(p) == 0 {
|
||||
return
|
||||
}
|
||||
r.mu.Lock()
|
||||
r.buf = append(r.buf, p...)
|
||||
if len(r.buf) > r.max {
|
||||
drop := len(r.buf) - r.max
|
||||
r.buf = append(r.buf[:0], r.buf[drop:]...)
|
||||
}
|
||||
r.mu.Unlock()
|
||||
}
|
||||
|
||||
// pull removes and returns up to maxBytes of queued PCM (a private copy), or nil
|
||||
// when empty. The render loop pads any shortfall with silence.
|
||||
func (r *pcmRing) pull(maxBytes int) []byte {
|
||||
r.mu.Lock()
|
||||
defer r.mu.Unlock()
|
||||
if len(r.buf) == 0 || maxBytes <= 0 {
|
||||
return nil
|
||||
}
|
||||
n := maxBytes
|
||||
if n > len(r.buf) {
|
||||
n = len(r.buf)
|
||||
}
|
||||
out := make([]byte, n)
|
||||
copy(out, r.buf[:n])
|
||||
r.buf = append(r.buf[:0], r.buf[n:]...)
|
||||
return out
|
||||
}
|
||||
|
||||
// renderStream continuously renders PCM pulled from src to a device until stop
|
||||
// closes — the streaming counterpart to playPCM's fixed buffer. On underrun it
|
||||
// writes silence rather than glitching, keeping the WASAPI clock steady so live
|
||||
// monitor audio flows smoothly even when the source stalls briefly. Runs on a
|
||||
// COM-initialised, OS-locked thread.
|
||||
func renderStream(deviceID string, rate, ch, bits int, stop <-chan struct{}, src *pcmRing) error {
|
||||
runtime.LockOSThread()
|
||||
defer runtime.UnlockOSThread()
|
||||
if err := coInit(); err != nil {
|
||||
return fmt.Errorf("CoInitialize: %w", err)
|
||||
}
|
||||
defer ole.CoUninitialize()
|
||||
|
||||
dev, err := openDevice(wca.ERender, deviceID)
|
||||
if err != nil {
|
||||
return err
|
||||
}
|
||||
defer dev.Release()
|
||||
|
||||
var ac *wca.IAudioClient
|
||||
if err := dev.Activate(wca.IID_IAudioClient, wca.CLSCTX_ALL, nil, &ac); err != nil {
|
||||
return fmt.Errorf("activate render: %w", err)
|
||||
}
|
||||
defer ac.Release()
|
||||
|
||||
frameBytes := ch * bits / 8
|
||||
if frameBytes <= 0 {
|
||||
return fmt.Errorf("bad audio format")
|
||||
}
|
||||
wfx := &wca.WAVEFORMATEX{
|
||||
WFormatTag: 1, NChannels: uint16(ch), NSamplesPerSec: uint32(rate),
|
||||
NAvgBytesPerSec: uint32(rate * frameBytes), NBlockAlign: uint16(frameBytes),
|
||||
WBitsPerSample: uint16(bits), CbSize: 0,
|
||||
}
|
||||
if err := ac.Initialize(wca.AUDCLNT_SHAREMODE_SHARED, autoConvert,
|
||||
wca.REFERENCE_TIME(bufferDuration100ns), 0, wfx, nil); err != nil {
|
||||
return fmt.Errorf("initialize render: %w", err)
|
||||
}
|
||||
var bufFrames uint32
|
||||
if err := ac.GetBufferSize(&bufFrames); err != nil {
|
||||
return err
|
||||
}
|
||||
var arc *wca.IAudioRenderClient
|
||||
if err := ac.GetService(wca.IID_IAudioRenderClient, &arc); err != nil {
|
||||
return fmt.Errorf("get render service: %w", err)
|
||||
}
|
||||
defer arc.Release()
|
||||
|
||||
// feed fills up to `frames` render frames: as much real audio as the ring
|
||||
// has, the remainder silence (so the buffer stays full and the clock steady).
|
||||
feed := func(frames int) error {
|
||||
if frames <= 0 {
|
||||
return nil
|
||||
}
|
||||
var data *byte
|
||||
if err := arc.GetBuffer(uint32(frames), &data); err != nil {
|
||||
return err
|
||||
}
|
||||
dst := unsafe.Slice(data, frames*frameBytes)
|
||||
got := src.pull(frames * frameBytes)
|
||||
n := copy(dst, got)
|
||||
for i := n; i < len(dst); i++ {
|
||||
dst[i] = 0 // silence-fill the shortfall
|
||||
}
|
||||
arc.ReleaseBuffer(uint32(frames), 0)
|
||||
return nil
|
||||
}
|
||||
|
||||
if err := feed(int(bufFrames)); err != nil { // pre-fill to avoid a start glitch
|
||||
return err
|
||||
}
|
||||
if err := ac.Start(); err != nil {
|
||||
return fmt.Errorf("start render: %w", err)
|
||||
}
|
||||
defer ac.Stop()
|
||||
|
||||
for {
|
||||
select {
|
||||
case <-stop:
|
||||
return nil
|
||||
default:
|
||||
}
|
||||
var padding uint32
|
||||
ac.GetCurrentPadding(&padding)
|
||||
if err := feed(int(bufFrames - padding)); err != nil {
|
||||
return err
|
||||
}
|
||||
time.Sleep(8 * time.Millisecond)
|
||||
}
|
||||
}
|
||||
|
||||
+131
-1
@@ -15,7 +15,10 @@ type Manager struct {
|
||||
recStop chan struct{}
|
||||
recDone chan recResult
|
||||
playStop chan struct{}
|
||||
onChange func() // fired on any record/playback state transition
|
||||
monStop chan struct{} // RX monitor passthrough (capture → render)
|
||||
monRing *pcmRing // live audio hand-off, also fed by the network stream
|
||||
txStop chan struct{} // TX audio passthrough (mic → rig)
|
||||
onChange func() // fired on any record/playback state transition
|
||||
}
|
||||
|
||||
type recResult struct {
|
||||
@@ -135,3 +138,130 @@ func (m *Manager) StopPlayback() {
|
||||
m.notify()
|
||||
}
|
||||
}
|
||||
|
||||
// ---- RX audio monitor (Phase 2: USB codec passthrough) --------------------
|
||||
//
|
||||
// StartMonitor pipes live RX audio from inputDev (e.g. the rig's "USB Audio
|
||||
// CODEC" capture endpoint) to outputDev (your speakers/headset) through a
|
||||
// latency-bounded ring, so you HEAR the radio inside OpsLog. The very same ring
|
||||
// is later fed by the network 50003 stream instead of a USB capture — the render
|
||||
// half is transport-agnostic. inputDev "" = system default capture.
|
||||
func (m *Manager) StartMonitor(inputDev, outputDev string) error {
|
||||
return m.startMonitor(inputDev, outputDev, true)
|
||||
}
|
||||
|
||||
// StartMonitorSink starts ONLY the render side (no USB capture) so an external
|
||||
// producer — the network 50003 stream — can feed decoded RX PCM via
|
||||
// PushMonitorAudio. Same output path as StartMonitor, minus the capture goroutine.
|
||||
func (m *Manager) StartMonitorSink(outputDev string) error {
|
||||
return m.startMonitor("", outputDev, false)
|
||||
}
|
||||
|
||||
// startMonitor wires the RX monitor: always a render loop pulling from monRing;
|
||||
// when capture is true it also captures inputDev into that ring (USB monitor).
|
||||
// When false the ring is fed only by PushMonitorAudio (network audio).
|
||||
func (m *Manager) startMonitor(inputDev, outputDev string, capture bool) error {
|
||||
m.mu.Lock()
|
||||
if m.monStop != nil {
|
||||
m.mu.Unlock()
|
||||
return fmt.Errorf("monitor already running")
|
||||
}
|
||||
stop := make(chan struct{})
|
||||
ring := newPCMRing(bytesPerSec / 2) // ~500 ms cap — low latency for live monitor
|
||||
m.monStop, m.monRing = stop, ring
|
||||
m.mu.Unlock()
|
||||
|
||||
if capture {
|
||||
// Producer: capture the rig's USB audio into the ring.
|
||||
go func() {
|
||||
_ = captureStream(inputDev, stop, func(chunk []byte) { ring.Push(chunk) })
|
||||
}()
|
||||
}
|
||||
// Consumer: render the ring to the output device at the internal 16 kHz mono.
|
||||
go func() {
|
||||
_ = renderStream(outputDev, sampleRate, channels, bitsPerSample, stop, ring)
|
||||
}()
|
||||
m.notify()
|
||||
return nil
|
||||
}
|
||||
|
||||
// StopMonitor stops the RX monitor passthrough.
|
||||
func (m *Manager) StopMonitor() {
|
||||
m.mu.Lock()
|
||||
stop := m.monStop
|
||||
m.monStop, m.monRing = nil, nil
|
||||
m.mu.Unlock()
|
||||
if stop != nil {
|
||||
close(stop)
|
||||
m.notify()
|
||||
}
|
||||
}
|
||||
|
||||
// MonitorActive reports whether the RX monitor passthrough is running.
|
||||
func (m *Manager) MonitorActive() bool {
|
||||
m.mu.Lock()
|
||||
defer m.mu.Unlock()
|
||||
return m.monStop != nil
|
||||
}
|
||||
|
||||
// PushMonitorAudio feeds externally-sourced PCM (16 kHz mono 16-bit) into the
|
||||
// active monitor's output — the hook the network 50003 audio stream uses to play
|
||||
// decoded RX through the very same output path a USB capture feeds. No-op when no
|
||||
// monitor is running. Keeps the unexported ring inside the package.
|
||||
func (m *Manager) PushMonitorAudio(pcm []byte) {
|
||||
m.mu.Lock()
|
||||
ring := m.monRing
|
||||
m.mu.Unlock()
|
||||
if ring != nil {
|
||||
ring.Push(pcm)
|
||||
}
|
||||
}
|
||||
|
||||
// ---- TX audio passthrough (Phase 3: live mic → rig over USB) --------------
|
||||
//
|
||||
// StartTXAudio pipes your live microphone (micDev) into the rig's audio input
|
||||
// (toRadioDev — for a USB-connected rig, its "USB Audio CODEC" render endpoint),
|
||||
// so you talk through the PC. It is the mirror of StartMonitor (same ring +
|
||||
// capture + render primitives, source/sink swapped). PTT keying is the caller's
|
||||
// job (the app layer keys PTT before this and unkeys after) so this stays a pure
|
||||
// audio route. The captured 16 kHz mono stream is also the exact shape the future
|
||||
// network 50003 TX will encode and send — so Phase 5 reuses this capture side.
|
||||
func (m *Manager) StartTXAudio(micDev, toRadioDev string) error {
|
||||
m.mu.Lock()
|
||||
if m.txStop != nil {
|
||||
m.mu.Unlock()
|
||||
return fmt.Errorf("TX audio already running")
|
||||
}
|
||||
stop := make(chan struct{})
|
||||
ring := newPCMRing(bytesPerSec / 4) // ~250 ms — tighter for live TX latency
|
||||
m.txStop = stop
|
||||
m.mu.Unlock()
|
||||
|
||||
go func() {
|
||||
_ = captureStream(micDev, stop, func(chunk []byte) { ring.Push(chunk) })
|
||||
}()
|
||||
go func() {
|
||||
_ = renderStream(toRadioDev, sampleRate, channels, bitsPerSample, stop, ring)
|
||||
}()
|
||||
m.notify()
|
||||
return nil
|
||||
}
|
||||
|
||||
// StopTXAudio stops the TX mic→rig passthrough.
|
||||
func (m *Manager) StopTXAudio() {
|
||||
m.mu.Lock()
|
||||
stop := m.txStop
|
||||
m.txStop = nil
|
||||
m.mu.Unlock()
|
||||
if stop != nil {
|
||||
close(stop)
|
||||
m.notify()
|
||||
}
|
||||
}
|
||||
|
||||
// TXAudioActive reports whether the TX mic→rig passthrough is running.
|
||||
func (m *Manager) TXAudioActive() bool {
|
||||
m.mu.Lock()
|
||||
defer m.mu.Unlock()
|
||||
return m.txStop != nil
|
||||
}
|
||||
|
||||
+58
-46
@@ -13,6 +13,7 @@
|
||||
package award
|
||||
|
||||
import (
|
||||
"errors"
|
||||
"regexp"
|
||||
"sort"
|
||||
"strconv"
|
||||
@@ -55,6 +56,11 @@ type Def struct {
|
||||
ValidFrom string `json:"valid_from,omitempty"` // ISO date (QSOs before don't count)
|
||||
ValidTo string `json:"valid_to,omitempty"` // ISO date (QSOs after don't count)
|
||||
Alias string `json:"alias,omitempty"`
|
||||
// RefDisplay picks what the grid's award column shows for a match: "" or "ref"
|
||||
// = the reference (e.g. WAJA "36"), "name" = the reference's description (e.g.
|
||||
// the prefecture name), "both" = "ref — name". DXCC always shows the country
|
||||
// name under "ref" (unchanged).
|
||||
RefDisplay string `json:"ref_display,omitempty"`
|
||||
|
||||
// --- Type & matching ---
|
||||
Type AwardType `json:"type,omitempty"` // matching strategy (default QSOFIELDS)
|
||||
@@ -68,10 +74,13 @@ type Def struct {
|
||||
Dynamic bool `json:"dynamic,omitempty"` // references not predefined (any value counts)
|
||||
AddPrefixes []string `json:"add_prefixes,omitempty"` // possible reference additional prefixes
|
||||
|
||||
// OrRules are ADDITIONAL searches OR'd with the primary one above: a QSO
|
||||
// earns a reference if the primary match OR any of these match. Lets a
|
||||
// French department (DDFM) be found from "D74" in the note AND from a postal
|
||||
// code "74140" in the address (pattern captures "74", Prefix "D" → "D74").
|
||||
// OrRules are ordered FALLBACK searches for the primary one above: they are
|
||||
// tried IN ORDER and only while nothing has matched yet — the first rule that
|
||||
// yields a reference wins and the rest are skipped (short-circuit, like a
|
||||
// chain of "else if"). Lets a Chinese province (WAPC) be found first from the
|
||||
// province NAME in the address, and only if that fails, from a city regex
|
||||
// (e.g. "\bJiangyin\b" → JS) — so a QSO already resolved by name isn't also
|
||||
// re-tagged, possibly differently, by a later rule.
|
||||
OrRules []OrRule `json:"or_rules,omitempty"`
|
||||
|
||||
// --- Scope ---
|
||||
@@ -252,6 +261,21 @@ type RefMeta struct {
|
||||
}
|
||||
|
||||
// NewRefList builds the engine's reference view from (code, meta) pairs.
|
||||
// compileAwardRE compiles an award / reference regex. Award patterns are run
|
||||
// over free-text log fields (QTH, NOTES) whose capitalization is arbitrary — a
|
||||
// log may hold "Tokyo", "TOKYO" or "TOKIO" — so we match case-insensitively by
|
||||
// default. An author who set their own flag group (e.g. "(?s)") is respected.
|
||||
func compileAwardRE(p string) (*regexp.Regexp, error) {
|
||||
p = strings.TrimSpace(p)
|
||||
if p == "" {
|
||||
return nil, errors.New("empty pattern")
|
||||
}
|
||||
if !strings.HasPrefix(p, "(?") {
|
||||
p = "(?i)" + p
|
||||
}
|
||||
return regexp.Compile(p)
|
||||
}
|
||||
|
||||
func NewRefList(metas []RefMeta) refList {
|
||||
rl := refList{byCode: make(map[string]RefMeta, len(metas))}
|
||||
for _, m := range metas {
|
||||
@@ -260,7 +284,7 @@ func NewRefList(metas []RefMeta) refList {
|
||||
continue
|
||||
}
|
||||
if p := strings.TrimSpace(m.Pattern); p != "" {
|
||||
if re, err := regexp.Compile(p); err == nil {
|
||||
if re, err := compileAwardRE(p); err == nil {
|
||||
m.re = re
|
||||
rl.withPattern = append(rl.withPattern, code)
|
||||
}
|
||||
@@ -292,7 +316,7 @@ func Compute(defs []Def, qsos []qso.QSO, refMetas map[string][]RefMeta, nameOf N
|
||||
perr := make([]string, len(defs))
|
||||
for i := range defs {
|
||||
if p := strings.TrimSpace(defs[i].Pattern); p != "" {
|
||||
re, err := regexp.Compile(p)
|
||||
re, err := compileAwardRE(p)
|
||||
if err != nil {
|
||||
perr[i] = "bad pattern: " + err.Error()
|
||||
} else {
|
||||
@@ -427,24 +451,14 @@ func MatchQSO(d Def, metas []RefMeta, q *qso.QSO) []string {
|
||||
}
|
||||
var re *regexp.Regexp
|
||||
if p := strings.TrimSpace(d.Pattern); p != "" {
|
||||
if c, err := regexp.Compile(p); err == nil {
|
||||
if c, err := compileAwardRE(p); err == nil {
|
||||
re = c
|
||||
} else {
|
||||
return nil
|
||||
}
|
||||
}
|
||||
rl := NewRefList(metas)
|
||||
found := candidates(&d, re, q, rl, len(metas) > 0)
|
||||
// Merge operator-assigned references (manual override). These let the
|
||||
// operator tag a QSO for an award whose field/description matching can't
|
||||
// auto-detect the reference — e.g. WAPC scans the ADDRESS field for a
|
||||
// province NAME, so a contact whose address doesn't spell it out needs the
|
||||
// province picked by hand. For a predefined award the override is still
|
||||
// validated against its reference list.
|
||||
if man := manualRefs(q, d.Code); len(man) > 0 {
|
||||
found = mergeManual(found, man, rl, len(metas) > 0 && !d.Dynamic)
|
||||
}
|
||||
return found
|
||||
return candidates(&d, re, q, rl, len(metas) > 0)
|
||||
}
|
||||
|
||||
// ManualRefsKey is the ADIF extras key under which OpsLog stores per-QSO,
|
||||
@@ -479,30 +493,6 @@ func manualRefs(q *qso.QSO, code string) []string {
|
||||
return out
|
||||
}
|
||||
|
||||
// mergeManual appends operator-assigned codes to the auto-found set, deduped.
|
||||
// When the award is predefined, only references present and valid in its list
|
||||
// are kept (so a typo can't invent a reference).
|
||||
func mergeManual(found, manual []string, rl refList, predefined bool) []string {
|
||||
seen := map[string]struct{}{}
|
||||
for _, c := range found {
|
||||
seen[normalizeRef(c)] = struct{}{}
|
||||
}
|
||||
for _, c := range manual {
|
||||
c = normalizeRef(c)
|
||||
if _, dup := seen[c]; dup {
|
||||
continue
|
||||
}
|
||||
if predefined {
|
||||
if m, ok := rl.byCode[c]; !ok || !m.Valid {
|
||||
continue
|
||||
}
|
||||
}
|
||||
seen[c] = struct{}{}
|
||||
found = append(found, c)
|
||||
}
|
||||
return found
|
||||
}
|
||||
|
||||
// Confirmed reports whether a QSO satisfies any of the given confirmation
|
||||
// sources (lotw|qsl|eqsl). Exported for the statistics view.
|
||||
func Confirmed(q *qso.QSO, sources []string) bool { return confirmed(q, sources) }
|
||||
@@ -560,6 +550,14 @@ func searchOne(field, matchBy string, re *regexp.Regexp, exact bool, leading, tr
|
||||
found = append(found, nc.code)
|
||||
}
|
||||
}
|
||||
// A reference may also declare its own regex to broaden matching beyond
|
||||
// its plain name (e.g. Tokyo's `\bTok[iy]o\b` also catches "TOKIO"). Test
|
||||
// those too — the name match and the pattern are OR'd.
|
||||
for _, code := range rl.withPattern {
|
||||
if m := rl.byCode[code]; m.re != nil && m.re.MatchString(raw) {
|
||||
found = append(found, code)
|
||||
}
|
||||
}
|
||||
case predefined && !exact:
|
||||
// "Search reference inside the field": look up each token of the field in
|
||||
// the list — O(tokens), not O(all references) — plus test the few
|
||||
@@ -591,19 +589,33 @@ func searchOne(field, matchBy string, re *regexp.Regexp, exact bool, leading, tr
|
||||
func candidates(d *Def, re *regexp.Regexp, q *qso.QSO, rl refList, hasList bool) []string {
|
||||
predefined := hasList && !d.Dynamic
|
||||
|
||||
// Primary search, then each OR rule — a QSO earns a reference if any matches.
|
||||
// Primary search first; the OR rules are ordered FALLBACKS — try the next
|
||||
// only while nothing has matched yet, and stop at the first that yields a
|
||||
// reference (short-circuit). So a province already found by NAME isn't also
|
||||
// re-derived, possibly differently, from a later city-regex rule.
|
||||
found := searchOne(d.Field, d.MatchBy, re, d.ExactMatch, d.LeadingStr, d.TrailingStr, "", q, rl, predefined)
|
||||
for i := range d.OrRules {
|
||||
for i := 0; len(found) == 0 && i < len(d.OrRules); i++ {
|
||||
r := &d.OrRules[i]
|
||||
var rre *regexp.Regexp
|
||||
if p := strings.TrimSpace(r.Pattern); p != "" {
|
||||
c, err := regexp.Compile(p)
|
||||
c, err := compileAwardRE(p)
|
||||
if err != nil {
|
||||
continue // skip a rule with a bad regex rather than failing the award
|
||||
}
|
||||
rre = c
|
||||
}
|
||||
found = append(found, searchOne(r.Field, r.MatchBy, rre, r.ExactMatch, r.LeadingStr, r.TrailingStr, r.Prefix, q, rl, predefined)...)
|
||||
found = searchOne(r.Field, r.MatchBy, rre, r.ExactMatch, r.LeadingStr, r.TrailingStr, r.Prefix, q, rl, predefined)
|
||||
}
|
||||
|
||||
// Merge operator-assigned references (manual override, ManualRefsKey). Lets
|
||||
// the operator tag a QSO for an award whose field/description matching can't
|
||||
// auto-detect the reference — e.g. WAPC scans ADDRESS for a province NAME, so
|
||||
// a contact whose address doesn't spell it out needs the province picked by
|
||||
// hand. Applied HERE (not just in MatchQSO) so Compute — which powers the
|
||||
// awards panel and the per-QSO refs editor — honours overrides too. For a
|
||||
// predefined award the ref is still validated against the list below.
|
||||
for _, c := range manualRefs(q, d.Code) {
|
||||
found = append(found, normalizeRef(c))
|
||||
}
|
||||
|
||||
if !predefined {
|
||||
|
||||
@@ -128,6 +128,146 @@ func TestComputeMatchByDescription(t *testing.T) {
|
||||
}
|
||||
}
|
||||
|
||||
// OR rules are ordered fallbacks: the primary match wins and short-circuits the
|
||||
// rules; when the primary finds nothing, the first OR rule that hits wins and
|
||||
// later rules are skipped. DDFM-style: a French department from the NOTE first,
|
||||
// else captured from a postal code in the address (Prefix "D" → "D74").
|
||||
func TestComputeOrRuleFallback(t *testing.T) {
|
||||
def := Def{Code: "DDFM", Type: TypeQSOFields, Field: "notes", Pattern: `\b(D\d{2})\b`,
|
||||
DXCCFilter: []int{227}, Valid: true,
|
||||
OrRules: []OrRule{
|
||||
{Field: "address", MatchBy: "pattern", Pattern: `\b(\d{2})\d{3}\b`, Prefix: "D"},
|
||||
},
|
||||
}
|
||||
refMetas := map[string][]RefMeta{"DDFM": {
|
||||
{Code: "D74", Name: "Haute-Savoie", Valid: true},
|
||||
{Code: "D75", Name: "Paris", Valid: true},
|
||||
}}
|
||||
worked := func(q qso.QSO) []string {
|
||||
r := Compute([]Def{def}, []qso.QSO{q}, refMetas, nil)[0]
|
||||
var out []string
|
||||
for _, rf := range r.Refs {
|
||||
if rf.Worked {
|
||||
out = append(out, rf.Ref)
|
||||
}
|
||||
}
|
||||
return out
|
||||
}
|
||||
// Primary (note "D74") matches → the postal OR rule is skipped, so the
|
||||
// address's 75001 does NOT also add D75. Exactly the user's ask: first
|
||||
// condition wins, no fall-through.
|
||||
if got := worked(qso.QSO{Callsign: "F4ABC", DXCC: ip(227), Notes: "worked D74", Address: "75001 Paris"}); len(got) != 1 || got[0] != "D74" {
|
||||
t.Errorf("primary wins: got %v, want [D74] (no postal fall-through to D75)", got)
|
||||
}
|
||||
// No note dept → fall through to the OR rule → postal 74140 → D74.
|
||||
if got := worked(qso.QSO{Callsign: "F4ABC", DXCC: ip(227), Notes: "", Address: "74140 Annecy"}); len(got) != 1 || got[0] != "D74" {
|
||||
t.Errorf("OR fallback: got %v, want [D74]", got)
|
||||
}
|
||||
}
|
||||
|
||||
// The user's WAPC cascade: (1) province NAME in QTH, else (2) province NAME in
|
||||
// ADDRESS, else (3) match-by-pattern in QTH, which runs each reference's OWN
|
||||
// regex (city lists). Confirms the ordered fallback + that a match-by-pattern
|
||||
// rule with an empty rule-pattern triggers the per-reference regexes.
|
||||
func TestComputeProvinceCascade(t *testing.T) {
|
||||
def := Def{Code: "WAPC", Type: TypeQSOFields, Field: "qth", MatchBy: "description",
|
||||
DXCCFilter: []int{318}, Valid: true,
|
||||
OrRules: []OrRule{
|
||||
{Field: "address", MatchBy: "description"},
|
||||
{Field: "qth", MatchBy: "pattern"}, // empty pattern → per-reference regexes
|
||||
},
|
||||
}
|
||||
refMetas := map[string][]RefMeta{"WAPC": {
|
||||
{Code: "JS", Name: "Jiangsu", Pattern: `\bJiangyin\b`, Valid: true},
|
||||
{Code: "ZJ", Name: "Zhejiang", Pattern: `\bHangzhou\b`, Valid: true},
|
||||
}}
|
||||
worked := func(q qso.QSO) []string {
|
||||
r := Compute([]Def{def}, []qso.QSO{q}, refMetas, nil)[0]
|
||||
var out []string
|
||||
for _, rf := range r.Refs {
|
||||
if rf.Worked {
|
||||
out = append(out, rf.Ref)
|
||||
}
|
||||
}
|
||||
return out
|
||||
}
|
||||
cases := []struct {
|
||||
name, qth, addr string
|
||||
want string
|
||||
}{
|
||||
{"name in qth", "Wuxi, Jiangsu", "", "JS"},
|
||||
{"name in address", "Wuxi", "Jiangsu Province", "JS"},
|
||||
{"city regex (Jiangyin) in qth", "Jiangyin", "", "JS"},
|
||||
{"city regex (Hangzhou) in qth", "Hangzhou", "", "ZJ"},
|
||||
}
|
||||
for _, c := range cases {
|
||||
got := worked(qso.QSO{Callsign: "BA1A", DXCC: ip(318), QTH: c.qth, Address: c.addr})
|
||||
if len(got) != 1 || got[0] != c.want {
|
||||
t.Errorf("%s: got %v, want [%s]", c.name, got, c.want)
|
||||
}
|
||||
}
|
||||
}
|
||||
|
||||
// A manually-assigned override (ManualRefsKey) must count in Compute — not just
|
||||
// MatchQSO — so a custom award like WAPC (matches ADDRESS by description, writes
|
||||
// no QSO field) sticks after the operator picks the province by hand. The engine
|
||||
// only auto-detects "Jiangsu" when the address spells it out; here it doesn't, so
|
||||
// the ref exists solely as the override.
|
||||
func TestComputeManualOverride(t *testing.T) {
|
||||
def := Def{Code: "WAPC", Type: TypeQSOFields, Field: "address", MatchBy: "description",
|
||||
DXCCFilter: []int{318}, Confirm: []string{"lotw", "qsl"}, Valid: true}
|
||||
qsos := []qso.QSO{
|
||||
// Address doesn't name the province → only the override tags it.
|
||||
{Callsign: "BA1ABC", Band: "20m", DXCC: ip(318), Address: "Beijing Rd 5",
|
||||
Extras: map[string]string{ManualRefsKey: "WAPC@JS"}},
|
||||
}
|
||||
refMetas := map[string][]RefMeta{"WAPC": {
|
||||
{Code: "JS", Name: "Jiangsu", Valid: true},
|
||||
{Code: "GD", Name: "Guangdong", Valid: true},
|
||||
}}
|
||||
r := Compute([]Def{def}, qsos, refMetas, nil)[0]
|
||||
if r.Worked != 1 {
|
||||
t.Fatalf("WAPC worked = %d, want 1 (Jiangsu via manual override); got %v", r.Worked, refCodes(r))
|
||||
}
|
||||
var worked []string
|
||||
for _, rf := range r.Refs {
|
||||
if rf.Worked {
|
||||
worked = append(worked, rf.Ref)
|
||||
}
|
||||
}
|
||||
if len(worked) != 1 || worked[0] != "JS" {
|
||||
t.Errorf("worked refs = %v, want [JS]", worked)
|
||||
}
|
||||
|
||||
// An override for a ref NOT in the predefined list is rejected (no typo refs).
|
||||
qsos[0].Extras[ManualRefsKey] = "WAPC@ZZ"
|
||||
if w := Compute([]Def{def}, qsos, refMetas, nil)[0].Worked; w != 0 {
|
||||
t.Errorf("bogus override ZZ: worked = %d, want 0", w)
|
||||
}
|
||||
}
|
||||
|
||||
// A description-match award must also honour a REFERENCE's own regex (used to
|
||||
// broaden matching past the plain name) AND match case-insensitively — a log
|
||||
// QTH "ITABASHIKU, TOKIO" (uppercase, "Tokio" spelling) must count for Tokyo
|
||||
// via its `\bTok[iy]o\b` pattern, which the plain name "Tokyo" can't catch.
|
||||
func TestComputeDescriptionRefPattern(t *testing.T) {
|
||||
def := Def{Code: "WAJA", Type: TypeQSOFields, Field: "qth", MatchBy: "description",
|
||||
DXCCFilter: []int{339}, Confirm: []string{"lotw", "qsl"}, Valid: true}
|
||||
qsos := []qso.QSO{
|
||||
{Callsign: "JA1LZB", Band: "10m", DXCC: ip(339), QTH: "ITABASHIKU, TOKIO"}, // pattern + case
|
||||
{Callsign: "JA3DEF", Band: "40m", DXCC: ip(339), QTH: "osaka pref"}, // lowercase name
|
||||
}
|
||||
refMetas := map[string][]RefMeta{"WAJA": {
|
||||
{Code: "13", Name: "Tokyo", Pattern: `\bTok[iy]o\b`, Valid: true},
|
||||
{Code: "27", Name: "Osaka", Valid: true},
|
||||
{Code: "01", Name: "Hokkaido", Valid: true},
|
||||
}}
|
||||
r := Compute([]Def{def}, qsos, refMetas, nil)[0]
|
||||
if r.Worked != 2 {
|
||||
t.Errorf("WAJA worked = %d, want 2 (Tokyo via pattern + Osaka via lowercase name); got %v", r.Worked, refCodes(r))
|
||||
}
|
||||
}
|
||||
|
||||
// VUCC: a grid4 award counts distinct 4-char grid squares, and a QSO on a grid
|
||||
// line (VUCC_GRIDS) contributes several. grid4 derives from VUCC_GRIDS else the
|
||||
// 4-char prefix of GRIDSQUARE.
|
||||
|
||||
+87
-8
@@ -32,6 +32,16 @@ type Backend interface {
|
||||
SetPTT(on bool) error
|
||||
}
|
||||
|
||||
// interruptible is an OPTIONAL backend capability: abort an in-progress Connect
|
||||
// quickly. The network Icom backend's Connect blocks for up to tens of seconds
|
||||
// (UDP handshake + login + waiting for the rig to boot from standby); without a
|
||||
// way to interrupt it, Stop()/Start() would freeze on the poll goroutine until
|
||||
// the dial gives up — which is why Settings "Save & Close" hung for ~1 min once
|
||||
// the link was lost. Backends that don't implement it are simply not interrupted.
|
||||
type interruptible interface {
|
||||
Interrupt()
|
||||
}
|
||||
|
||||
// RigState is the snapshot exchanged with the frontend.
|
||||
//
|
||||
// FreqHz follows the ADIF FREQ convention: it is the TX frequency. When the
|
||||
@@ -156,6 +166,7 @@ func (m *Manager) stopLocked() {
|
||||
m.mu.Lock()
|
||||
stop := m.stopCh
|
||||
done := m.doneCh
|
||||
b := m.backend
|
||||
m.stopCh = nil
|
||||
m.doneCh = nil
|
||||
m.cmdCh = nil
|
||||
@@ -164,6 +175,11 @@ func (m *Manager) stopLocked() {
|
||||
if stop != nil {
|
||||
close(stop)
|
||||
}
|
||||
// Abort any in-progress Connect so we don't block on a slow network dial
|
||||
// (the poll goroutine can be tens of seconds deep in the Icom UDP handshake).
|
||||
if iv, ok := b.(interruptible); ok {
|
||||
iv.Interrupt()
|
||||
}
|
||||
if done != nil {
|
||||
<-done
|
||||
}
|
||||
@@ -189,11 +205,12 @@ func (m *Manager) SetPTT(on bool) error {
|
||||
// the backend picks a default when it's empty. (Status-based colouring can be
|
||||
// driven later by setting Color per spot.)
|
||||
type SpotInfo struct {
|
||||
FreqHz int64
|
||||
Callsign string
|
||||
Mode string
|
||||
Color string
|
||||
Comment string
|
||||
FreqHz int64
|
||||
Callsign string
|
||||
Mode string
|
||||
Color string
|
||||
Comment string
|
||||
LifetimeSec int // panadapter display seconds before auto-removal (0 = backend default)
|
||||
}
|
||||
|
||||
// Spotter is an OPTIONAL backend capability: show cluster spots on the radio
|
||||
@@ -229,9 +246,24 @@ func (m *Manager) SendSpot(s SpotInfo) {
|
||||
// FlexTXState is the FlexRadio transmit/ATU state surfaced to the dedicated
|
||||
// FlexRadio control tab. Levels are 0-100. (Phase 1: controls + state pushed by
|
||||
// the radio over TCP; live meters arrive over a separate UDP stream later.)
|
||||
// FlexSliceInfo identifies one FlexRadio receiver slice (A/B/C/D…) for the
|
||||
// panel, so the operator sees every slice and which one is active/TX.
|
||||
type FlexSliceInfo struct {
|
||||
Index int `json:"index"` // 0-based slice index
|
||||
Letter string `json:"letter"` // A, B, C, D…
|
||||
FreqHz int64 `json:"freq_hz"`
|
||||
Mode string `json:"mode,omitempty"` // ADIF mode
|
||||
Band string `json:"band,omitempty"`
|
||||
Active bool `json:"active"` // the focused/operating slice
|
||||
TX bool `json:"tx"` // this slice transmits
|
||||
}
|
||||
|
||||
type FlexTXState struct {
|
||||
Available bool `json:"available"` // backend is Flex and handshaked
|
||||
Model string `json:"model,omitempty"`
|
||||
// Slices lists every in-use receiver slice (A/B/C/D…) so the panel can show
|
||||
// them all and highlight the active one. The active slice drives everything.
|
||||
Slices []FlexSliceInfo `json:"slices,omitempty"`
|
||||
RFPower int `json:"rf_power"`
|
||||
TunePower int `json:"tune_power"`
|
||||
Tune bool `json:"tune"` // tune carrier active
|
||||
@@ -244,6 +276,11 @@ type FlexTXState struct {
|
||||
Mon bool `json:"mon"`
|
||||
MonLevel int `json:"mon_level"`
|
||||
MicLevel int `json:"mic_level"`
|
||||
TXFilterLow int `json:"tx_filter_low"` // TX filter low cut (Hz)
|
||||
TXFilterHigh int `json:"tx_filter_high"` // TX filter high cut (Hz)
|
||||
// Mic profiles (SmartSDR): the list of available profiles + the loaded one.
|
||||
MicProfile string `json:"mic_profile,omitempty"`
|
||||
MicProfiles []string `json:"mic_profiles,omitempty"`
|
||||
ATUStatus string `json:"atu_status,omitempty"`
|
||||
ATUMemories bool `json:"atu_memories"`
|
||||
// Active RX slice DSP controls.
|
||||
@@ -265,6 +302,8 @@ type FlexTXState struct {
|
||||
NRLevel int `json:"nr_level"`
|
||||
ANF bool `json:"anf"`
|
||||
ANFLevel int `json:"anf_level"`
|
||||
WNB bool `json:"wnb"`
|
||||
WNBLevel int `json:"wnb_level"`
|
||||
// CW / mode-specific controls.
|
||||
Mode string `json:"mode,omitempty"` // active slice mode (CW/USB/LSB/DIGU…)
|
||||
CWSpeed int `json:"cw_speed"`
|
||||
@@ -291,6 +330,7 @@ type FlexMeter struct {
|
||||
Src string `json:"src,omitempty"` // SLC / TX- / RAD / AMP…
|
||||
Name string `json:"name,omitempty"` // FWDPWR, SWR, LEVEL, PATEMP…
|
||||
Unit string `json:"unit,omitempty"`
|
||||
Slice int `json:"slice"` // for SLC meters, the slice index it belongs to; -1 otherwise
|
||||
Value float64 `json:"value"`
|
||||
Lo float64 `json:"lo"`
|
||||
Hi float64 `json:"hi"`
|
||||
@@ -313,6 +353,8 @@ type FlexController interface {
|
||||
SetMon(bool) error
|
||||
SetMonLevel(int) error
|
||||
SetMic(int) error
|
||||
SetTXFilter(low, high int) error // transmit-audio bandwidth (Hz)
|
||||
SetMicProfile(string) error // load a SmartSDR mic profile by name
|
||||
ATUStart() error
|
||||
ATUBypass() error
|
||||
SetATUMemories(bool) error
|
||||
@@ -323,6 +365,8 @@ type FlexController interface {
|
||||
SetMute(bool) error
|
||||
SetRXAntenna(string) error
|
||||
SetTXAntenna(string) error
|
||||
SetActiveSlice(int) error // focus slice idx so commands target it
|
||||
SetTXSlice(int) error // make slice idx the transmitter (tx=1)
|
||||
SetSplit(bool) error
|
||||
SetNB(bool) error
|
||||
SetNBLevel(int) error
|
||||
@@ -332,6 +376,8 @@ type FlexController interface {
|
||||
SetANFLevel(int) error
|
||||
SetAPF(bool) error
|
||||
SetAPFLevel(int) error
|
||||
SetWNB(bool) error
|
||||
SetWNBLevel(int) error
|
||||
// CW keyer + mode-specific controls.
|
||||
SetCWSpeed(int) error
|
||||
SetCWPitch(int) error
|
||||
@@ -399,10 +445,27 @@ type IcomTXState struct {
|
||||
NR bool `json:"nr"`
|
||||
NRLevel int `json:"nr_level"`
|
||||
ANF bool `json:"anf"`
|
||||
APF bool `json:"apf"` // audio peak filter (CW only)
|
||||
AGC string `json:"agc,omitempty"` // FAST | MID | SLOW
|
||||
Preamp int `json:"preamp"` // 0=off, 1=P.AMP1, 2=P.AMP2
|
||||
Att int `json:"att"` // dB attenuation, 0=off
|
||||
Filter int `json:"filter"` // 1 | 2 | 3 (FIL1/2/3)
|
||||
// Antenna (IC-7610 = ANT1/ANT2).
|
||||
Antenna int `json:"antenna"` // 1 | 2 (0 = unknown)
|
||||
// Filter fine controls: Twin PBT + manual notch (0-100, 50 = centre).
|
||||
PBTInner int `json:"pbt_inner"`
|
||||
PBTOuter int `json:"pbt_outer"`
|
||||
ManualNotch bool `json:"manual_notch"`
|
||||
NotchPos int `json:"notch_pos"`
|
||||
// TX extras.
|
||||
Squelch int `json:"squelch"`
|
||||
Comp bool `json:"comp"`
|
||||
CompLevel int `json:"comp_level"`
|
||||
Monitor bool `json:"monitor"`
|
||||
MonLevel int `json:"mon_level"`
|
||||
VOX bool `json:"vox"`
|
||||
VOXGain int `json:"vox_gain"`
|
||||
AntiVOX int `json:"anti_vox"`
|
||||
}
|
||||
|
||||
// IcomController is an OPTIONAL backend capability (the Icom CI-V backend): the
|
||||
@@ -418,6 +481,7 @@ type IcomController interface {
|
||||
SetNR(bool) error
|
||||
SetNRLevel(int) error
|
||||
SetANF(bool) error
|
||||
SetAPF(bool) error
|
||||
SetAGC(string) error
|
||||
SetPreamp(int) error
|
||||
SetAtt(int) error
|
||||
@@ -426,9 +490,10 @@ type IcomController interface {
|
||||
SetMicGain(int) error
|
||||
SetIcomSplit(bool) error
|
||||
TuneATU() error
|
||||
SetScope(bool) error // enable/disable the spectrum-scope waveform stream
|
||||
SetScopeMode(bool) error // true = fixed span, false = center-on-VFO
|
||||
ScopeData() ScopeSweep // latest assembled sweep (empty until enabled)
|
||||
SetScope(bool) error // enable/disable the spectrum-scope waveform stream
|
||||
SetScopeMode(bool) error // true = fixed span, false = center-on-VFO
|
||||
SetScopeEdges(int64, int64) error // point the fixed scope at low..high Hz (centre/pan)
|
||||
ScopeData() ScopeSweep // latest assembled sweep (empty until enabled)
|
||||
SetRIT(int) error // RIT/ΔTX offset in signed Hz
|
||||
SetRITOn(bool) error // RIT on/off
|
||||
SetXITOn(bool) error // ΔTX (XIT) on/off
|
||||
@@ -436,6 +501,20 @@ type IcomController interface {
|
||||
StopCW() error // abort the CW message being sent
|
||||
SetKeySpeed(int) error // CW keyer speed in WPM
|
||||
SetBreakIn(int) error // CW break-in: 0=OFF, 1=SEMI, 2=FULL
|
||||
SetAntenna(int) error // 1 = ANT1, 2 = ANT2
|
||||
SetPBTInner(int) error // Twin PBT inside (0-100, 50 = centre)
|
||||
SetPBTOuter(int) error // Twin PBT outside (0-100, 50 = centre)
|
||||
SetManualNotch(bool) error
|
||||
SetNotchPos(int) error // manual-notch position (0-100, 50 = centre)
|
||||
SetSquelch(int) error
|
||||
SetComp(bool) error
|
||||
SetCompLevel(int) error
|
||||
SetMonitor(bool) error
|
||||
SetMonLevel(int) error
|
||||
SetVOX(bool) error
|
||||
SetVOXGain(int) error
|
||||
SetAntiVOX(int) error
|
||||
SetPower(bool) error // turn the transceiver on/off (manual — never auto on connect)
|
||||
}
|
||||
|
||||
// ScopeSweep is one complete spectrum-scope sweep reassembled from the Icom's
|
||||
|
||||
+21
-3
@@ -37,7 +37,9 @@ const (
|
||||
CmdPTT = 0x1C // sub 0x00 = PTT
|
||||
CmdExtra = 0x1A // sub 0x06 = data mode on modern Icoms
|
||||
CmdReadID = 0x19 // sub 0x00 = rig's own CI-V address (identifies model)
|
||||
CmdPower = 0x18 // power on/off (sub 0x01 = on, 0x00 = off; on needs an FE wake preamble)
|
||||
|
||||
CmdAnt = 0x12 // antenna selector (sub 0x00 = ANT1, 0x01 = ANT2; read = no sub)
|
||||
CmdAtt = 0x11 // attenuator (1 BCD byte of dB; 0x00 = off)
|
||||
CmdLevel = 0x14 // analogue levels (sub + 2 BCD bytes, 0000-0255)
|
||||
CmdMeter = 0x15 // meters (sub + 2 BCD bytes, 0000-0255): S-meter/Po/SWR
|
||||
@@ -67,8 +69,16 @@ const (
|
||||
// CmdLevel sub-commands.
|
||||
SubLevelAF = 0x01 // AF (volume)
|
||||
SubLevelRF = 0x02 // RF gain
|
||||
SubLevelSQL = 0x03 // squelch level
|
||||
SubLevelPBTIn = 0x07 // Twin PBT (inside) — 0-255, 128 = centre
|
||||
SubLevelPBTOut = 0x08 // Twin PBT (outside) — 0-255, 128 = centre
|
||||
SubLevelNR = 0x06 // noise-reduction depth
|
||||
SubLevelNotch = 0x0D // manual-notch position — 0-255, 128 = centre
|
||||
SubLevelComp = 0x0E // speech-compressor level
|
||||
SubLevelNB = 0x12 // noise-blanker depth
|
||||
SubLevelMon = 0x15 // monitor gain
|
||||
SubLevelVOXGain = 0x16 // VOX gain
|
||||
SubLevelAntiVOX = 0x17 // anti-VOX level
|
||||
SubLevelRFPower = 0x0A // TX RF output power
|
||||
SubLevelMic = 0x0B // mic gain
|
||||
|
||||
@@ -84,9 +94,10 @@ const (
|
||||
SubScopeData = 0x00 // waveform data frame (divided across several frames)
|
||||
SubScopeOnOff = 0x10 // turn the scope display itself on/off (00/01)
|
||||
SubScopeOn = 0x11 // enable/disable waveform data output over CI-V (00/01)
|
||||
SubScopeMode = 0x14 // center/fixed mode (0=center, 1=fixed) — VERIFY on rig
|
||||
SubScopeSpan = 0x15 // span in center mode — VERIFY on rig
|
||||
SubScopeEdge = 0x16 // fixed-mode edge frequencies — VERIFY on rig
|
||||
SubScopeMode = 0x14 // center/fixed mode (0=center, 1=fixed)
|
||||
SubScopeSpan = 0x15 // span in center mode (±span/2 as 5 LE-BCD)
|
||||
SubScopeEdge = 0x16 // fixed-mode ACTIVE edge set 1-4 (vfo + set#)
|
||||
SubScopeFixEdge = 0x1e // fixed-mode edge FREQUENCIES: [range][set#][low 5-BCD][high 5-BCD]
|
||||
|
||||
// CmdSwitch sub-commands.
|
||||
SubSwPreamp = 0x02 // 0=off, 1=P.AMP1, 2=P.AMP2
|
||||
@@ -94,7 +105,12 @@ const (
|
||||
SubSwNB = 0x22 // noise blanker on/off
|
||||
SubSwNR = 0x40 // noise reduction on/off
|
||||
SubSwANF = 0x41 // auto-notch on/off
|
||||
SubSwComp = 0x44 // speech compressor on/off
|
||||
SubSwMon = 0x45 // monitor on/off
|
||||
SubSwVOX = 0x46 // VOX on/off
|
||||
SubSwBreakIn = 0x47 // CW break-in: 0=OFF, 1=SEMI, 2=FULL (needed so 0x17 CW keys TX)
|
||||
SubSwMN = 0x48 // manual notch on/off
|
||||
SubSwAPF = 0x32 // audio peak filter on/off (CW only)
|
||||
)
|
||||
|
||||
// CW break-in modes (CmdSwitch 0x47).
|
||||
@@ -297,6 +313,8 @@ func ModelName(addr byte) string {
|
||||
return "IC-7300"
|
||||
case 0x98:
|
||||
return "IC-7610"
|
||||
case 0x7C:
|
||||
return "IC-9100"
|
||||
case 0xA2:
|
||||
return "IC-9700"
|
||||
case 0xA4:
|
||||
|
||||
+408
-112
@@ -4,6 +4,7 @@ package cat
|
||||
|
||||
import (
|
||||
"bufio"
|
||||
"context"
|
||||
"encoding/binary"
|
||||
"fmt"
|
||||
"math"
|
||||
@@ -25,9 +26,10 @@ type Flex struct {
|
||||
host string
|
||||
port int
|
||||
|
||||
mu sync.Mutex
|
||||
conn net.Conn
|
||||
wmu sync.Mutex // serialises writes to conn
|
||||
mu sync.Mutex
|
||||
conn net.Conn
|
||||
dialCancel context.CancelFunc // cancels an in-flight Connect dial (Interrupt/Stop); nil when not dialing
|
||||
wmu sync.Mutex // serialises writes to conn
|
||||
seq int
|
||||
handle string
|
||||
model string
|
||||
@@ -36,6 +38,8 @@ type Flex struct {
|
||||
slices map[int]*flexSlice
|
||||
tx flexTX // transmit/ATU state pushed by the radio (FlexRadio tab)
|
||||
amp flexAmp // external amplifier (PowerGenius XL) state
|
||||
micProfiles []string // available mic profiles (SmartSDR "profile mic list")
|
||||
micProfile string // currently loaded mic profile
|
||||
txSetAt map[string]time.Time // status field → when WE last set it (ignore the radio's lagging echo briefly)
|
||||
lastStateSig string // last logged derived-state signature (log only on change)
|
||||
boundClientID string // GUI client (SmartSDR) we bound to; "" until bound. Binding lets this non-GUI client receive GUI-tied data (CW pitch/speed, break-in delay, RF power).
|
||||
@@ -56,6 +60,7 @@ type Flex struct {
|
||||
pendingSpot map[int]string // seq → callsign, awaiting the spot index in the R response
|
||||
pendingSplit map[int]bool // seq → awaiting the new TX slice's index (split create)
|
||||
spotCall map[int]string // spot index → callsign (to fill the call on a panadapter click)
|
||||
spotByCall map[string]int // callsign → live spot index, so re-spotting a call replaces its old spot (WSJT decodes re-fire every cycle)
|
||||
sentCmds map[int]string // seq → command text, so an R<seq> error names the command
|
||||
|
||||
// OnSpotClick is called (off the reader goroutine's hot path) when the user
|
||||
@@ -83,6 +88,8 @@ type flexSlice struct {
|
||||
anfLevel int
|
||||
apf bool // CW audio peaking filter
|
||||
apfLevel int
|
||||
wnb bool // wideband noise blanker
|
||||
wnbLevel int
|
||||
filterLo int // slice filter low cut (Hz)
|
||||
filterHi int // slice filter high cut (Hz)
|
||||
rxAnt string // selected RX antenna (e.g. ANT1, ANT2, RX_A)
|
||||
@@ -106,6 +113,8 @@ type flexTX struct {
|
||||
mon bool
|
||||
monLevel int
|
||||
micLevel int
|
||||
filterLow int // TX filter low cut (Hz)
|
||||
filterHigh int // TX filter high cut (Hz)
|
||||
atuStatus string
|
||||
atuMemories bool
|
||||
// CW keyer params (set via the top-level "cw" commands).
|
||||
@@ -131,6 +140,7 @@ type meterInfo struct {
|
||||
src string // SLC (slice), TX-, COD, RAD, AMP…
|
||||
name string // FWDPWR, SWR, LEVEL, PATEMP, +13.8B…
|
||||
unit string // dbm, dbfs, swr, volts, degc, watts…
|
||||
slc int // for src=SLC meters, the slice index (the ".num" field); -1 otherwise
|
||||
lo float64
|
||||
hi float64
|
||||
}
|
||||
@@ -149,7 +159,7 @@ func NewFlex(host string, port int, spotsEnabled bool) *Flex {
|
||||
return &Flex{
|
||||
host: strings.TrimSpace(host), port: port,
|
||||
slices: map[int]*flexSlice{}, spotsEnabled: spotsEnabled,
|
||||
spotIdx: map[int]bool{}, pendingSpot: map[int]string{}, spotCall: map[int]string{}, pendingSplit: map[int]bool{},
|
||||
spotIdx: map[int]bool{}, pendingSpot: map[int]string{}, spotCall: map[int]string{}, spotByCall: map[string]int{}, pendingSplit: map[int]bool{},
|
||||
meterMeta: map[int]meterInfo{}, meterVal: map[int]float64{}, meterSub: map[int]bool{},
|
||||
sentCmds: map[int]string{}, txSetAt: map[string]time.Time{},
|
||||
}
|
||||
@@ -171,7 +181,19 @@ func (f *Flex) Connect() error {
|
||||
if host == "" {
|
||||
return fmt.Errorf("flex: no radio IP configured")
|
||||
}
|
||||
conn, err := net.DialTimeout("tcp", net.JoinHostPort(host, strconv.Itoa(port)), 5*time.Second)
|
||||
// Cancellable dial: Interrupt() (called by Stop/Start) aborts it at once so a
|
||||
// dead radio's 5 s dial timeout doesn't make Stop / Settings "Save & Close"
|
||||
// wait several seconds for the poll goroutine to give up.
|
||||
ctx, cancel := context.WithTimeout(context.Background(), 5*time.Second)
|
||||
f.mu.Lock()
|
||||
f.dialCancel = cancel
|
||||
f.mu.Unlock()
|
||||
var d net.Dialer
|
||||
conn, err := d.DialContext(ctx, "tcp", net.JoinHostPort(host, strconv.Itoa(port)))
|
||||
cancel()
|
||||
f.mu.Lock()
|
||||
f.dialCancel = nil
|
||||
f.mu.Unlock()
|
||||
if err != nil {
|
||||
return fmt.Errorf("flex: connect %s:%d: %w", host, port, err)
|
||||
}
|
||||
@@ -195,6 +217,8 @@ func (f *Flex) Connect() error {
|
||||
f.send("sub amplifier all") // external amplifier (PowerGenius XL) operate/standby
|
||||
f.send("sub radio all") // radio-wide incl. interlock (TX/RX state)
|
||||
f.send("sub cwx all") // CWX: the LIVE CW speed/pitch/break-in (transmit holds only a static default)
|
||||
f.send("sub profile all") // mic/global/tx profiles (for the mic-profile dropdown)
|
||||
f.send("profile mic info") // request the current mic profile list + selection
|
||||
f.send("sub client all") // learn the GUI client (SmartSDR) so we can bind to it (below)
|
||||
f.startMeters(conn) // open the UDP VITA-49 stream for live meters
|
||||
if f.spotsEnabled {
|
||||
@@ -224,6 +248,23 @@ func (f *Flex) Disconnect() {
|
||||
}
|
||||
}
|
||||
|
||||
// Interrupt aborts an in-flight Connect dial so Stop()/Start() (Settings
|
||||
// "Save & Close", CAT backend switch) don't block on a dead radio's 5 s dial
|
||||
// timeout. Satisfies the Manager's optional interruptible interface. Safe to call
|
||||
// anytime and from another goroutine; a no-op when not dialing.
|
||||
func (f *Flex) Interrupt() {
|
||||
f.mu.Lock()
|
||||
cancel := f.dialCancel
|
||||
c := f.conn
|
||||
f.mu.Unlock()
|
||||
if cancel != nil {
|
||||
cancel()
|
||||
}
|
||||
if c != nil {
|
||||
_ = c.Close() // unblock the reader if we're already past the dial
|
||||
}
|
||||
}
|
||||
|
||||
// send writes a sequenced command (C<seq>|<cmd>) to the radio and returns the
|
||||
// sequence number (so the caller can match the R<seq> response, e.g. to learn a
|
||||
// new spot's index). Returns 0 when not connected. Best effort.
|
||||
@@ -313,6 +354,7 @@ func (f *Flex) reader(conn net.Conn) {
|
||||
if idx, e := strconv.Atoi(strings.TrimSpace(parts[2])); e == nil {
|
||||
f.spotCall[idx] = call
|
||||
f.spotIdx[idx] = true
|
||||
f.spotByCall[strings.ToUpper(call)] = idx
|
||||
}
|
||||
}
|
||||
// A successful "slice create" for split returns the new slice's index;
|
||||
@@ -414,6 +456,12 @@ func (f *Flex) handleStatus(payload string) {
|
||||
f.tx.cwBreakInDelay = atoiDefault(val, f.tx.cwBreakInDelay)
|
||||
case "mic_level", "miclevel":
|
||||
f.tx.micLevel = atoiDefault(val, f.tx.micLevel)
|
||||
// TX filter: the transmit STATUS reports the passband as lo/hi (the
|
||||
// SET command is filter_low/filter_high — a SmartSDR quirk).
|
||||
case "lo", "filter_low":
|
||||
f.tx.filterLow = atoiDefault(val, f.tx.filterLow)
|
||||
case "hi", "filter_high":
|
||||
f.tx.filterHigh = atoiDefault(val, f.tx.filterHigh)
|
||||
}
|
||||
}
|
||||
f.mu.Unlock()
|
||||
@@ -495,6 +543,35 @@ func (f *Flex) handleStatus(payload string) {
|
||||
}
|
||||
f.mu.Unlock()
|
||||
}
|
||||
// Mic-profile object — "profile mic list=A^B^C" (available profiles) and
|
||||
// "profile mic current=<name>" (loaded one). Names can contain spaces, so
|
||||
// values are taken from the raw payload after the key. Logged once so the
|
||||
// exact field names are confirmable on real hardware.
|
||||
if len(fields) >= 2 && fields[0] == "profile" && fields[1] == "mic" {
|
||||
debugLog.Printf("Flex: profile status: %s", payload)
|
||||
if i := strings.Index(payload, "list="); i >= 0 {
|
||||
var profs []string
|
||||
for _, p := range strings.Split(payload[i+len("list="):], "^") {
|
||||
if p = strings.TrimSpace(p); p != "" {
|
||||
profs = append(profs, p)
|
||||
}
|
||||
}
|
||||
f.mu.Lock()
|
||||
f.micProfiles = profs
|
||||
f.mu.Unlock()
|
||||
}
|
||||
// The loaded profile arrives as current=<name> (some firmwares:
|
||||
// selection=<name>); accept either.
|
||||
for _, key := range []string{"current=", "selection="} {
|
||||
if i := strings.Index(payload, key); i >= 0 {
|
||||
cur := strings.TrimSpace(payload[i+len(key):])
|
||||
f.mu.Lock()
|
||||
f.micProfile = cur
|
||||
f.mu.Unlock()
|
||||
break
|
||||
}
|
||||
}
|
||||
}
|
||||
// Interlock object — transmit state (RECEIVE / TRANSMITTING / …).
|
||||
if len(fields) >= 1 && fields[0] == "interlock" {
|
||||
f.mu.Lock()
|
||||
@@ -565,7 +642,7 @@ func (f *Flex) handleStatus(payload string) {
|
||||
// One meter per token; its fields are '#'-separated:
|
||||
// "<n>.src=…#<n>.num=…#<n>.nam=…#<n>.low=…#<n>.hi=…#<n>.unit=…".
|
||||
num := -1
|
||||
var mi meterInfo
|
||||
mi := meterInfo{slc: -1}
|
||||
for _, sub := range strings.Split(tok, "#") {
|
||||
key, val, ok := splitKV(sub)
|
||||
if !ok {
|
||||
@@ -585,6 +662,12 @@ func (f *Flex) handleStatus(payload string) {
|
||||
mi.src = val
|
||||
case "nam":
|
||||
mi.name = val
|
||||
case "num":
|
||||
// For a slice (SLC) meter this field is the slice index —
|
||||
// how we tell slice A's S-meter from slice B's.
|
||||
if v, e := strconv.Atoi(strings.TrimSpace(val)); e == nil {
|
||||
mi.slc = v
|
||||
}
|
||||
case "unit", "units":
|
||||
mi.unit = val
|
||||
case "low", "lo":
|
||||
@@ -599,6 +682,7 @@ func (f *Flex) handleStatus(payload string) {
|
||||
old, seen := f.meterMeta[num]
|
||||
if !seen {
|
||||
newIDs = append(newIDs, num)
|
||||
old.slc = -1
|
||||
}
|
||||
if mi.src != "" {
|
||||
old.src = mi.src
|
||||
@@ -609,6 +693,9 @@ func (f *Flex) handleStatus(payload string) {
|
||||
if mi.unit != "" {
|
||||
old.unit = mi.unit
|
||||
}
|
||||
if mi.slc >= 0 {
|
||||
old.slc = mi.slc
|
||||
}
|
||||
if mi.lo != 0 {
|
||||
old.lo = mi.lo
|
||||
}
|
||||
@@ -713,6 +800,10 @@ func (f *Flex) handleStatus(payload string) {
|
||||
s.apf = val == "1"
|
||||
case "apf_level":
|
||||
s.apfLevel = atoiDefault(val, s.apfLevel)
|
||||
case "wnb":
|
||||
s.wnb = val == "1"
|
||||
case "wnb_level":
|
||||
s.wnbLevel = atoiDefault(val, s.wnbLevel)
|
||||
case "filter_lo":
|
||||
s.filterLo = atoiDefault(val, s.filterLo)
|
||||
case "filter_hi":
|
||||
@@ -743,21 +834,19 @@ func (f *Flex) ReadState() (RigState, error) {
|
||||
if !f.gotHandle {
|
||||
return st, nil // connected TCP but radio hasn't handshaked yet
|
||||
}
|
||||
rx, tx := f.pickSlicesLocked()
|
||||
if rx == nil && tx == nil {
|
||||
main, rxS, txSplit := f.operatingLocked()
|
||||
if main == nil {
|
||||
return st, nil
|
||||
}
|
||||
if tx == nil {
|
||||
tx = rx
|
||||
}
|
||||
if rx == nil {
|
||||
rx = tx
|
||||
}
|
||||
st.FreqHz = tx.freqHz
|
||||
st.Mode = flexModeToADIF(tx.mode)
|
||||
if rx.freqHz != tx.freqHz {
|
||||
// Main frequency/mode = the ACTIVE slice (what the operator is on). Only a
|
||||
// genuine same-band split adds a separate TX freq; then ADIF convention wants
|
||||
// FreqHz = TX and RxFreqHz = RX.
|
||||
st.FreqHz = main.freqHz
|
||||
st.Mode = flexModeToADIF(main.mode)
|
||||
if rxS != nil && txSplit != nil {
|
||||
st.Split = true
|
||||
st.RxFreqHz = rx.freqHz
|
||||
st.RxFreqHz = rxS.freqHz
|
||||
st.FreqHz = txSplit.freqHz
|
||||
}
|
||||
sig := fmt.Sprintf("%d/%d/%v/%s", st.FreqHz, st.RxFreqHz, st.Split, st.Mode)
|
||||
if sig != f.lastStateSig {
|
||||
@@ -767,76 +856,163 @@ func (f *Flex) ReadState() (RigState, error) {
|
||||
return st, nil
|
||||
}
|
||||
|
||||
// pickSlicesLocked chooses the TX and RX slices among in-use slices. TX is the
|
||||
// slice flagged tx=1. RX is the slice you actually receive on — the NON-TX slice
|
||||
// (preferring the active/focused one), NOT simply the active slice: tuning the
|
||||
// TX slice makes it the active/focused slice, which would otherwise collapse RX
|
||||
// onto TX and hide the split. Caller holds f.mu.
|
||||
func (f *Flex) pickSlicesLocked() (rx, tx *flexSlice) {
|
||||
idxs := make([]int, 0, len(f.slices))
|
||||
for i, s := range f.slices {
|
||||
if s.inUse {
|
||||
idxs = append(idxs, i)
|
||||
}
|
||||
}
|
||||
sort.Ints(idxs)
|
||||
var active, txS, nonTx, first *flexSlice
|
||||
for _, i := range idxs {
|
||||
s := f.slices[i]
|
||||
if first == nil {
|
||||
first = s
|
||||
}
|
||||
if s.active {
|
||||
active = s
|
||||
}
|
||||
if s.tx {
|
||||
txS = s
|
||||
} else if nonTx == nil {
|
||||
nonTx = s
|
||||
}
|
||||
}
|
||||
tx = txS
|
||||
if tx == nil {
|
||||
if active != nil {
|
||||
tx = active
|
||||
} else {
|
||||
tx = first
|
||||
}
|
||||
}
|
||||
// RX = the receive slice: the active one if it isn't the TX slice, else the
|
||||
// first non-TX slice; fall back to TX (simplex) when there's only one slice.
|
||||
switch {
|
||||
case active != nil && active != tx:
|
||||
rx = active
|
||||
case nonTx != nil:
|
||||
rx = nonTx
|
||||
default:
|
||||
rx = tx
|
||||
}
|
||||
return rx, tx
|
||||
}
|
||||
|
||||
// activeSliceIndexLocked returns the slice index to send commands to (the active
|
||||
// slice, else the lowest in-use index, else 0). Caller holds f.mu.
|
||||
func (f *Flex) activeSliceIndexLocked() int {
|
||||
best, found := 1<<30, false
|
||||
for idx, s := range f.slices {
|
||||
// mainSliceLocked is the operator's slice: the ACTIVE (focused) in-use slice, or
|
||||
// the lowest-indexed in-use slice when none is flagged active. EVERYTHING the
|
||||
// user does — freq/mode display, RX DSP, tuning, mode changes, spot clicks —
|
||||
// follows this slice, so a second independent slice (e.g. monitoring another
|
||||
// band) never hijacks the main frequency. Returns (-1, nil) when no slice is in
|
||||
// use. Caller holds f.mu.
|
||||
func (f *Flex) mainSliceLocked() (int, *flexSlice) {
|
||||
// Iterate in ASCENDING index order — NEVER map-iteration order, which Go
|
||||
// randomises. When two slices transiently BOTH report active=1 (e.g. an
|
||||
// external controller like DXHunter activates a slice on another band while
|
||||
// ours still holds active, before SmartSDR sends active=0 to the old one),
|
||||
// map order returned a RANDOM active slice each call → the operating frequency
|
||||
// flip-flopped 40m/20m every poll and the Ultrabeam motors chased it forever.
|
||||
// Deterministic order = the lowest-indexed active slice wins, stably.
|
||||
firstInUse := -1
|
||||
for _, idx := range f.sortedSliceIdxLocked() {
|
||||
s := f.slices[idx]
|
||||
if !s.inUse {
|
||||
continue
|
||||
}
|
||||
if s.active {
|
||||
return idx
|
||||
if firstInUse < 0 {
|
||||
firstInUse = idx
|
||||
}
|
||||
if idx < best {
|
||||
best, found = idx, true
|
||||
if s.active {
|
||||
return idx, s
|
||||
}
|
||||
}
|
||||
if found {
|
||||
return best
|
||||
if firstInUse >= 0 {
|
||||
return firstInUse, f.slices[firstInUse]
|
||||
}
|
||||
return -1, nil
|
||||
}
|
||||
|
||||
// sortedSliceIdxLocked returns the slice indices in ascending order so every
|
||||
// slice-selection helper is deterministic (map iteration is randomised). Caller
|
||||
// holds f.mu.
|
||||
func (f *Flex) sortedSliceIdxLocked() []int {
|
||||
idxs := make([]int, 0, len(f.slices))
|
||||
for idx := range f.slices {
|
||||
idxs = append(idxs, idx)
|
||||
}
|
||||
sort.Ints(idxs)
|
||||
return idxs
|
||||
}
|
||||
|
||||
// activeSliceIndexLocked returns the slice index to send commands to (the main
|
||||
// slice, else 0). Caller holds f.mu.
|
||||
func (f *Flex) activeSliceIndexLocked() int {
|
||||
if idx, _ := f.mainSliceLocked(); idx >= 0 {
|
||||
return idx
|
||||
}
|
||||
return 0
|
||||
}
|
||||
|
||||
// sliceLetter maps a slice index to its SmartSDR letter (0→A, 1→B, …).
|
||||
func sliceLetter(idx int) string {
|
||||
if idx < 0 || idx > 25 {
|
||||
return fmt.Sprintf("%d", idx)
|
||||
}
|
||||
return string(rune('A' + idx))
|
||||
}
|
||||
|
||||
// txSliceLocked returns the slice flagged as the transmitter (tx=1), or nil.
|
||||
// Caller holds f.mu.
|
||||
func (f *Flex) txSliceLocked() *flexSlice {
|
||||
for _, idx := range f.sortedSliceIdxLocked() {
|
||||
if s := f.slices[idx]; s.inUse && s.tx {
|
||||
return s
|
||||
}
|
||||
}
|
||||
return nil
|
||||
}
|
||||
|
||||
// operatingLocked resolves the operator's slices: the MAIN (active) slice for the
|
||||
// mode/display, and — ONLY for a GENUINE split — the RX and TX slices. Split is
|
||||
// the tx-flagged slice PLUS a distinct in-use slice on the SAME band (different
|
||||
// freq) AND the SAME split class (both PHONE, or both CW) — detected from the
|
||||
// pair itself, NOT from which slice is active (the TX slice often steals focus
|
||||
// right after "slice create", which must NOT read as "no split"). A slice on
|
||||
// another band is an independent receiver, ignored; so is a same-band slice in a
|
||||
// different mode (SSB + FT8) or a data mode (FT8/FT4/RTTY never split).
|
||||
// Caller holds f.mu.
|
||||
func (f *Flex) operatingLocked() (main, rx, tx *flexSlice) {
|
||||
_, main = f.mainSliceLocked()
|
||||
txS := f.txSliceLocked()
|
||||
if txS == nil {
|
||||
return main, nil, nil
|
||||
}
|
||||
bt := BandFromHz(txS.freqHz)
|
||||
if bt == "" {
|
||||
return main, nil, nil
|
||||
}
|
||||
// Split only applies to PHONE/CW; a data-mode TX slice never splits.
|
||||
ct := flexSplitClass(txS.mode)
|
||||
if ct == "" {
|
||||
return main, nil, nil
|
||||
}
|
||||
// A split partner is an in-use, same-band slice at a different freq in the
|
||||
// SAME split class (so SSB + FT8 on one band is NOT a split).
|
||||
sameSplit := func(s *flexSlice) bool {
|
||||
return s != nil && s.inUse && s != txS && s.freqHz != txS.freqHz &&
|
||||
BandFromHz(s.freqHz) == bt && flexSplitClass(s.mode) == ct
|
||||
}
|
||||
// RX = the active slice when it qualifies, else the first other qualifying
|
||||
// same-band slice.
|
||||
if sameSplit(main) {
|
||||
rx = main
|
||||
} else {
|
||||
for _, idx := range f.sortedSliceIdxLocked() {
|
||||
if s := f.slices[idx]; sameSplit(s) {
|
||||
rx = s
|
||||
break
|
||||
}
|
||||
}
|
||||
}
|
||||
if rx == nil {
|
||||
return main, nil, nil // tx slice alone (simplex) or no same-mode partner → not split
|
||||
}
|
||||
return main, rx, txS
|
||||
}
|
||||
|
||||
// SetActiveSlice focuses slice idx on the radio so every subsequent command
|
||||
// (freq / mode / DSP / spot click) targets it. Lets the operator pick the
|
||||
// operating slice from OpsLog (like SliceLogger's A/B selector).
|
||||
func (f *Flex) SetActiveSlice(idx int) error {
|
||||
f.mu.Lock()
|
||||
_, exists := f.slices[idx]
|
||||
connected := f.conn != nil
|
||||
f.mu.Unlock()
|
||||
if !connected {
|
||||
return fmt.Errorf("flex: not connected")
|
||||
}
|
||||
if !exists {
|
||||
return fmt.Errorf("flex: no slice %d", idx)
|
||||
}
|
||||
f.send(fmt.Sprintf("slice s %d active=1", idx))
|
||||
return nil
|
||||
}
|
||||
|
||||
// SetTXSlice makes slice idx the transmitter (tx=1) — e.g. "put TX on the active
|
||||
// slice" so you transmit where you're listening. Only one slice can be TX; the
|
||||
// radio clears the flag on the others.
|
||||
func (f *Flex) SetTXSlice(idx int) error {
|
||||
f.mu.Lock()
|
||||
_, exists := f.slices[idx]
|
||||
connected := f.conn != nil
|
||||
f.mu.Unlock()
|
||||
if !connected {
|
||||
return fmt.Errorf("flex: not connected")
|
||||
}
|
||||
if !exists {
|
||||
return fmt.Errorf("flex: no slice %d", idx)
|
||||
}
|
||||
f.send(fmt.Sprintf("slice s %d tx=1", idx))
|
||||
return nil
|
||||
}
|
||||
|
||||
func (f *Flex) SetFrequency(hz int64) error {
|
||||
if hz <= 0 {
|
||||
return fmt.Errorf("flex: invalid frequency")
|
||||
@@ -844,6 +1020,15 @@ func (f *Flex) SetFrequency(hz int64) error {
|
||||
f.mu.Lock()
|
||||
idx := f.activeSliceIndexLocked()
|
||||
connected := f.conn != nil
|
||||
// Optimistically update the active slice's cached freq NOW, before the radio
|
||||
// echoes the slice status back. Otherwise ReadState/FlexState keep reporting
|
||||
// the OLD freq for the round-trip: the top display (optimistic liveFreqHz)
|
||||
// jumped to the new band while the slice cache — which the FlexPanel and the
|
||||
// Ultrabeam follow loop read — still showed the old one, so the antenna chased
|
||||
// the stale value. The real echo confirms/corrects this a moment later.
|
||||
if s := f.slices[idx]; s != nil {
|
||||
s.freqHz = hz
|
||||
}
|
||||
f.mu.Unlock()
|
||||
if !connected {
|
||||
return fmt.Errorf("flex: not connected")
|
||||
@@ -869,6 +1054,13 @@ func (f *Flex) SetMode(mode string) error {
|
||||
if fm == "" {
|
||||
return fmt.Errorf("flex: unsupported mode %q", mode)
|
||||
}
|
||||
// Optimistically cache the new mode too (same reasoning as SetFrequency) so the
|
||||
// panel reflects it immediately instead of lagging the radio's echo.
|
||||
f.mu.Lock()
|
||||
if s := f.slices[idx]; s != nil {
|
||||
s.mode = fm
|
||||
}
|
||||
f.mu.Unlock()
|
||||
// "slice s <rx> mode=<m>" — set command per the SmartSDR API.
|
||||
f.send(fmt.Sprintf("slice s %d mode=%s", idx, fm))
|
||||
return nil
|
||||
@@ -892,8 +1084,30 @@ func (f *Flex) SendSpot(s SpotInfo) error {
|
||||
if color == "" {
|
||||
color = "#FFFFA500" // opaque orange default
|
||||
}
|
||||
cmd := fmt.Sprintf("spot add rx_freq=%.6f callsign=%s color=%s source=OpsLog lifetime_seconds=1800 trigger_action=Tune timestamp=%d",
|
||||
float64(s.FreqHz)/1e6, call, color, time.Now().Unix())
|
||||
life := s.LifetimeSec
|
||||
if life <= 0 {
|
||||
life = 1800 // default 30 min (cluster spots)
|
||||
}
|
||||
// De-dupe by callsign: WSJT decodes re-fire every cycle, so a station already
|
||||
// spotted gets its previous spot removed first — one live spot per call,
|
||||
// refreshed, instead of a pile that all expire independently. NB: capture the
|
||||
// old index under the lock but send OUTSIDE it — f.send() takes f.mu itself,
|
||||
// and Go mutexes aren't reentrant (calling send while locked deadlocks the
|
||||
// whole Flex goroutine → the radio drops OFFLINE).
|
||||
upperCall := strings.ToUpper(s.Callsign)
|
||||
f.mu.Lock()
|
||||
old, hadOld := f.spotByCall[upperCall]
|
||||
if hadOld {
|
||||
delete(f.spotByCall, upperCall)
|
||||
delete(f.spotCall, old)
|
||||
delete(f.spotIdx, old)
|
||||
}
|
||||
f.mu.Unlock()
|
||||
if hadOld {
|
||||
f.send(fmt.Sprintf("spot remove %d", old))
|
||||
}
|
||||
cmd := fmt.Sprintf("spot add rx_freq=%.6f callsign=%s color=%s source=OpsLog lifetime_seconds=%d trigger_action=Tune timestamp=%d",
|
||||
float64(s.FreqHz)/1e6, call, color, life, time.Now().Unix())
|
||||
if m := flexEncode(s.Mode); m != "" {
|
||||
cmd += " mode=" + m
|
||||
}
|
||||
@@ -939,6 +1153,7 @@ func (f *Flex) ClearSpots() error {
|
||||
f.mu.Lock()
|
||||
f.spotIdx = map[int]bool{}
|
||||
f.spotCall = map[int]string{}
|
||||
f.spotByCall = map[string]int{}
|
||||
connected := f.conn != nil
|
||||
f.mu.Unlock()
|
||||
if !connected {
|
||||
@@ -1017,19 +1232,10 @@ func clampLevel(v int) int {
|
||||
return v
|
||||
}
|
||||
|
||||
// rxSliceLocked returns the active RX slice and its index (-1 when none), using
|
||||
// the same RX-selection rule as ReadState. Caller holds f.mu.
|
||||
// rxSliceLocked returns the operator's (main/active) slice and its index — the
|
||||
// slice every RX-DSP control and read targets. Caller holds f.mu.
|
||||
func (f *Flex) rxSliceLocked() (int, *flexSlice) {
|
||||
rx, _ := f.pickSlicesLocked()
|
||||
if rx == nil {
|
||||
return -1, nil
|
||||
}
|
||||
for i, s := range f.slices {
|
||||
if s == rx {
|
||||
return i, rx
|
||||
}
|
||||
}
|
||||
return -1, rx
|
||||
return f.mainSliceLocked()
|
||||
}
|
||||
|
||||
// FlexState returns a snapshot of the radio's transmit/ATU state plus the active
|
||||
@@ -1053,6 +1259,10 @@ func (f *Flex) FlexState() FlexTXState {
|
||||
Mon: f.tx.mon,
|
||||
MonLevel: f.tx.monLevel,
|
||||
MicLevel: f.tx.micLevel,
|
||||
TXFilterLow: f.tx.filterLow,
|
||||
TXFilterHigh: f.tx.filterHigh,
|
||||
MicProfile: f.micProfile,
|
||||
MicProfiles: f.micProfiles,
|
||||
ATUStatus: f.tx.atuStatus,
|
||||
ATUMemories: f.tx.atuMemories,
|
||||
// CW keyer (defaults applied so the sliders show sane values pre-read).
|
||||
@@ -1062,10 +1272,31 @@ func (f *Flex) FlexState() FlexTXState {
|
||||
CWSidetone: f.tx.cwSidetone,
|
||||
CWMonLevel: f.tx.cwMonLevel,
|
||||
}
|
||||
if rx, tx := f.pickSlicesLocked(); rx != nil && tx != nil && rx != tx && rx.freqHz != tx.freqHz {
|
||||
if _, rxS, txSplit := f.operatingLocked(); rxS != nil && txSplit != nil {
|
||||
st.Split = true
|
||||
st.RXFreqHz = rx.freqHz
|
||||
st.TXFreqHz = tx.freqHz
|
||||
st.RXFreqHz = rxS.freqHz
|
||||
st.TXFreqHz = txSplit.freqHz
|
||||
}
|
||||
// Every in-use slice (A/B/C/D…) so the panel shows them all and highlights the
|
||||
// active/TX one — the active slice drives everything the operator does.
|
||||
sidx := make([]int, 0, len(f.slices))
|
||||
for i, s := range f.slices {
|
||||
if s.inUse {
|
||||
sidx = append(sidx, i)
|
||||
}
|
||||
}
|
||||
sort.Ints(sidx)
|
||||
for _, i := range sidx {
|
||||
s := f.slices[i]
|
||||
st.Slices = append(st.Slices, FlexSliceInfo{
|
||||
Index: i,
|
||||
Letter: sliceLetter(i),
|
||||
FreqHz: s.freqHz,
|
||||
Mode: flexModeToADIF(s.mode),
|
||||
Band: BandFromHz(s.freqHz),
|
||||
Active: s.active,
|
||||
TX: s.tx,
|
||||
})
|
||||
}
|
||||
if _, rx := f.rxSliceLocked(); rx != nil {
|
||||
st.RXAvail = true
|
||||
@@ -1082,6 +1313,8 @@ func (f *Flex) FlexState() FlexTXState {
|
||||
st.ANFLevel = rx.anfLevel
|
||||
st.APF = rx.apf
|
||||
st.APFLevel = rx.apfLevel
|
||||
st.WNB = rx.wnb
|
||||
st.WNBLevel = rx.wnbLevel
|
||||
st.FilterLo = rx.filterLo
|
||||
st.FilterHi = rx.filterHi
|
||||
st.RXAnt = rx.rxAnt
|
||||
@@ -1106,7 +1339,7 @@ func (f *Flex) FlexState() FlexTXState {
|
||||
sort.Ints(ids) // stable order so the UI doesn't reshuffle each poll
|
||||
for _, id := range ids {
|
||||
mi := f.meterMeta[id]
|
||||
st.Meters = append(st.Meters, FlexMeter{ID: id, Src: mi.src, Name: mi.name, Unit: mi.unit, Value: f.meterVal[id], Lo: mi.lo, Hi: mi.hi})
|
||||
st.Meters = append(st.Meters, FlexMeter{ID: id, Src: mi.src, Name: mi.name, Unit: mi.unit, Slice: mi.slc, Value: f.meterVal[id], Lo: mi.lo, Hi: mi.hi})
|
||||
}
|
||||
}
|
||||
return st
|
||||
@@ -1198,35 +1431,40 @@ func (f *Flex) SetSplit(on bool) error {
|
||||
f.mu.Unlock()
|
||||
return fmt.Errorf("flex: not connected")
|
||||
}
|
||||
rx, tx := f.pickSlicesLocked()
|
||||
// Split is built AROUND THE ACTIVE slice, and "already split" uses the SAME
|
||||
// same-band-pair rule as the button state (operatingLocked) — otherwise two
|
||||
// INDEPENDENT slices on different bands look "already split" and SPLIT ON does
|
||||
// nothing (the bug the user hit: A on 20m + B on 80m).
|
||||
main, rxS, txS := f.operatingLocked()
|
||||
rxIdx, txIdx := -1, -1
|
||||
for i, s := range f.slices {
|
||||
if s == rx {
|
||||
if s == rxS {
|
||||
rxIdx = i
|
||||
}
|
||||
if s == tx {
|
||||
if s == txS {
|
||||
txIdx = i
|
||||
}
|
||||
}
|
||||
alreadySplit := rx != nil && tx != nil && rx != tx
|
||||
var rxFreq int64
|
||||
var rxMode, rxAnt string
|
||||
if rx != nil {
|
||||
rxFreq, rxMode, rxAnt = rx.freqHz, rx.mode, rx.rxAnt
|
||||
alreadySplit := rxS != nil && txS != nil
|
||||
var baseFreq int64
|
||||
var baseMode, baseAnt string
|
||||
if main != nil {
|
||||
baseFreq, baseMode, baseAnt = main.freqHz, main.mode, main.rxAnt
|
||||
}
|
||||
f.mu.Unlock()
|
||||
|
||||
if on {
|
||||
if alreadySplit || rx == nil {
|
||||
return nil // already split (or no slice)
|
||||
if alreadySplit || main == nil {
|
||||
return nil // already split, or no active slice
|
||||
}
|
||||
offset := int64(5000)
|
||||
if strings.HasPrefix(strings.ToUpper(rxMode), "CW") {
|
||||
if strings.HasPrefix(strings.ToUpper(baseMode), "CW") {
|
||||
offset = 1000
|
||||
}
|
||||
cmd := fmt.Sprintf("slice create freq=%.6f mode=%s", float64(rxFreq+offset)/1e6, rxMode)
|
||||
if rxAnt != "" {
|
||||
cmd += " ant=" + rxAnt
|
||||
// Create the TX slice at the ACTIVE slice's freq + offset (same band).
|
||||
cmd := fmt.Sprintf("slice create freq=%.6f mode=%s", float64(baseFreq+offset)/1e6, baseMode)
|
||||
if baseAnt != "" {
|
||||
cmd += " ant=" + baseAnt
|
||||
}
|
||||
if seq := f.send(cmd); seq > 0 {
|
||||
f.mu.Lock()
|
||||
@@ -1239,10 +1477,10 @@ func (f *Flex) SetSplit(on bool) error {
|
||||
return nil
|
||||
}
|
||||
if txIdx >= 0 {
|
||||
f.send(fmt.Sprintf("slice remove %d", txIdx))
|
||||
f.send(fmt.Sprintf("slice remove %d", txIdx)) // drop the extra TX slice
|
||||
}
|
||||
if rxIdx >= 0 {
|
||||
f.send(fmt.Sprintf("slice s %d tx=1", rxIdx))
|
||||
f.send(fmt.Sprintf("slice s %d tx=1", rxIdx)) // RX slice transmits again
|
||||
}
|
||||
return nil
|
||||
}
|
||||
@@ -1254,6 +1492,8 @@ func (f *Flex) SetANF(on bool) error { return f.sendSlice("anf", boolFlex(on)
|
||||
func (f *Flex) SetANFLevel(l int) error { return f.sendSlice("anf_level", clampLevel(l)) }
|
||||
func (f *Flex) SetAPF(on bool) error { return f.sendSlice("apf", boolFlex(on)) }
|
||||
func (f *Flex) SetAPFLevel(l int) error { return f.sendSlice("apf_level", clampLevel(l)) }
|
||||
func (f *Flex) SetWNB(on bool) error { return f.sendSlice("wnb", boolFlex(on)) }
|
||||
func (f *Flex) SetWNBLevel(l int) error { return f.sendSlice("wnb_level", clampLevel(l)) }
|
||||
|
||||
// ── CW keyer controls (top-level "cw" commands) ──
|
||||
|
||||
@@ -1471,6 +1711,45 @@ func (f *Flex) SetMic(l int) error {
|
||||
return f.txSet(fmt.Sprintf("transmit set miclevel=%d", l), "mic_level", func(t *flexTX) { t.micLevel = l })
|
||||
}
|
||||
|
||||
// SetTXFilter sets the transmit-audio bandwidth (low + high cut, in Hz). SmartSDR
|
||||
// clamps to legal values per mode; we just pass them through in one command so
|
||||
// both edges move together.
|
||||
func (f *Flex) SetTXFilter(low, high int) error {
|
||||
if low < 0 {
|
||||
low = 0
|
||||
}
|
||||
if high < low {
|
||||
high = low
|
||||
}
|
||||
// Guard both status field names (the echo comes back as lo/hi, not
|
||||
// filter_low/high) so the radio's lagging echo doesn't snap the inputs back.
|
||||
f.mu.Lock()
|
||||
f.txSetAt["hi"] = time.Now()
|
||||
f.mu.Unlock()
|
||||
return f.txSet(fmt.Sprintf("transmit set filter_low=%d filter_high=%d", low, high), "lo",
|
||||
func(t *flexTX) { t.filterLow, t.filterHigh = low, high })
|
||||
}
|
||||
|
||||
// SetMicProfile loads a SmartSDR mic profile by name (quoted, as names may hold
|
||||
// spaces). Optimistically caches the selection.
|
||||
func (f *Flex) SetMicProfile(name string) error {
|
||||
name = strings.TrimSpace(name)
|
||||
if name == "" {
|
||||
return fmt.Errorf("flex: empty mic profile")
|
||||
}
|
||||
f.mu.Lock()
|
||||
connected := f.conn != nil
|
||||
if connected {
|
||||
f.micProfile = name
|
||||
}
|
||||
f.mu.Unlock()
|
||||
if !connected {
|
||||
return fmt.Errorf("flex: not connected")
|
||||
}
|
||||
f.send(fmt.Sprintf("profile mic load \"%s\"", name))
|
||||
return nil
|
||||
}
|
||||
|
||||
func (f *Flex) ATUStart() error {
|
||||
if !f.connected() {
|
||||
return fmt.Errorf("flex: not connected")
|
||||
@@ -1690,6 +1969,23 @@ func parseFloatDefault(s string, def float64) float64 {
|
||||
}
|
||||
|
||||
// flexModeToADIF maps a Flex slice mode to a generic ADIF mode.
|
||||
// flexSplitClass groups a raw Flex slice mode into a split-capable class. A
|
||||
// genuine split (one RX freq, one TX freq, SAME mode) only makes sense for PHONE
|
||||
// and CW pileups. Data modes (FT8/FT4/RTTY all report as DIGU/DIGL/RTTY on a
|
||||
// Flex) and digital voice never operate split, so they return "" (not
|
||||
// split-capable). Two same-band slices whose classes differ (e.g. SSB + FT8) are
|
||||
// independent operations, not a split.
|
||||
func flexSplitClass(rawMode string) string {
|
||||
switch flexModeToADIF(rawMode) {
|
||||
case "SSB", "AM", "FM":
|
||||
return "PHONE"
|
||||
case "CW":
|
||||
return "CW"
|
||||
default: // DATA, RTTY, DIGITALVOICE, "" → never split
|
||||
return ""
|
||||
}
|
||||
}
|
||||
|
||||
func flexModeToADIF(m string) string {
|
||||
switch strings.ToUpper(strings.TrimSpace(m)) {
|
||||
case "USB", "LSB":
|
||||
|
||||
@@ -0,0 +1,49 @@
|
||||
package cat
|
||||
|
||||
import "testing"
|
||||
|
||||
// A genuine split is two same-band slices in the SAME split class (both PHONE or
|
||||
// both CW). Two same-band slices in different modes (SSB + FT8), or in a data
|
||||
// mode (FT8/FT4/RTTY = DIGU/DIGL), must NOT read as split.
|
||||
func TestOperatingSplitMode(t *testing.T) {
|
||||
mk := func(hz int64, mode string, active, tx bool) *flexSlice {
|
||||
return &flexSlice{freqHz: hz, mode: mode, active: active, tx: tx, inUse: true}
|
||||
}
|
||||
cases := []struct {
|
||||
name string
|
||||
slices map[int]*flexSlice
|
||||
wantSplit bool
|
||||
}{
|
||||
{"phone split (both USB)", map[int]*flexSlice{
|
||||
0: mk(14_100_000, "USB", true, false),
|
||||
1: mk(14_200_000, "USB", false, true),
|
||||
}, true},
|
||||
{"CW split (both CW)", map[int]*flexSlice{
|
||||
0: mk(7_010_000, "CW", true, false),
|
||||
1: mk(7_025_000, "CW", false, true),
|
||||
}, true},
|
||||
{"SSB + FT8 same band → not split", map[int]*flexSlice{
|
||||
0: mk(14_100_000, "USB", true, false),
|
||||
1: mk(14_074_000, "DIGU", false, true),
|
||||
}, false},
|
||||
{"both FT8 (DIGU) same band → not split", map[int]*flexSlice{
|
||||
0: mk(14_074_000, "DIGU", true, false),
|
||||
1: mk(14_080_000, "DIGU", false, true),
|
||||
}, false},
|
||||
{"different bands → not split", map[int]*flexSlice{
|
||||
0: mk(14_100_000, "USB", true, false),
|
||||
1: mk(7_100_000, "LSB", false, true),
|
||||
}, false},
|
||||
{"simplex (single slice) → not split", map[int]*flexSlice{
|
||||
0: mk(14_100_000, "USB", true, true),
|
||||
}, false},
|
||||
}
|
||||
for _, c := range cases {
|
||||
f := &Flex{slices: c.slices}
|
||||
_, rx, tx := f.operatingLocked()
|
||||
gotSplit := rx != nil && tx != nil
|
||||
if gotSplit != c.wantSplit {
|
||||
t.Errorf("%s: split=%v, want %v", c.name, gotSplit, c.wantSplit)
|
||||
}
|
||||
}
|
||||
}
|
||||
@@ -0,0 +1,219 @@
|
||||
package cat
|
||||
|
||||
// icomaudio.go — the NETWORK AUDIO stream (UDP 50003) for the Icom LAN protocol.
|
||||
// It is the third stream alongside control (50001) and CI-V (50002): once the
|
||||
// control login + conninfo (with rxenable=1) authorize audio, the rig streams RX
|
||||
// audio here as data packets. This file dials/handshakes/keeps-alive that socket
|
||||
// exactly like the CI-V stream (icomnet.go) — those parts are byte-for-byte the
|
||||
// PROVEN transport — and hands each received audio payload to a sink callback
|
||||
// (the app decodes it via an audio.Codec and plays it through the RX monitor).
|
||||
//
|
||||
// Reuses icomnet.go's helpers (icnCtrl, icnHandshake, icnPingReply, icnRecv,
|
||||
// icnLocalID, icnLE) and the same seq/retransmit discipline.
|
||||
//
|
||||
// ⚠️ PAYLOAD OFFSET PENDING ON-RIG VERIFICATION. The stream framing (handshake,
|
||||
// ping, idle, retransmit, common 16-byte header) is identical to CI-V and proven.
|
||||
// The AUDIO data packet's inner layout — where the PCM starts and the datalen
|
||||
// field — is reconstructed from wfview's audio_packet (ident@0x10, datalen@0x12,
|
||||
// sendseq@0x14, audio@0x16) but NOT yet confirmed against a real 50003 capture.
|
||||
// audioPump logs the first few raw packets (icaDumpFirst) so the offset can be
|
||||
// confirmed/corrected on the first on-rig test without a packet capture, the same
|
||||
// way the CI-V/scope framing was iterated. Nothing here can destabilize CAT: the
|
||||
// audio stream is opt-in and entirely separate from control/CI-V.
|
||||
|
||||
import (
|
||||
"net"
|
||||
"sync"
|
||||
"sync/atomic"
|
||||
"time"
|
||||
)
|
||||
|
||||
// icaAudioOffset is where the PCM payload begins inside an audio data packet
|
||||
// (wfview audio_packet: 16-byte common header + ident@0x10 + datalen@0x12 +
|
||||
// sendseq@0x14 → audio@0x16). Isolated as a const so a capture-confirmed change
|
||||
// is a one-line edit.
|
||||
const icaAudioOffset = 0x16
|
||||
|
||||
// icaDumpFirst is how many initial audio packets to hex-dump to the debug log for
|
||||
// offset verification. After the layout is confirmed on a real rig this can go to
|
||||
// 0 (or the const above corrected).
|
||||
const icaDumpFirst = 6
|
||||
|
||||
// icomAudio is the connected audio stream. RX only for now (Phase 4); TX (Phase
|
||||
// 5) will add an encode+send path mirroring icomNet.Write.
|
||||
type icomAudio struct {
|
||||
conn *net.UDPConn
|
||||
aID, aRemote uint32
|
||||
|
||||
sink func([]byte) // receives each raw audio payload (app decodes + plays)
|
||||
|
||||
// Receive-side retransmit (audio is a heavy stream, like the scope): track the
|
||||
// rig's data-packet send seq and ask it to resend gaps, or the rig drops the
|
||||
// session. Same mechanism as icomNet. Owned solely by audioPump → no lock.
|
||||
rxHaveSeq bool
|
||||
rxLastSeq uint16
|
||||
rxMissing map[uint16]int
|
||||
|
||||
dumped int // packets hex-dumped so far (≤ icaDumpFirst)
|
||||
lastRx atomic.Int64 // UnixNano of last packet (liveness)
|
||||
|
||||
done chan struct{}
|
||||
closeOnce sync.Once
|
||||
}
|
||||
|
||||
func (a *icomAudio) markRx() { a.lastRx.Store(time.Now().UnixNano()) }
|
||||
|
||||
// Close tears the audio stream down (disconnect a few times; UDP is lossy).
|
||||
func (a *icomAudio) Close() {
|
||||
a.closeOnce.Do(func() {
|
||||
close(a.done)
|
||||
for i := 0; i < 3; i++ {
|
||||
_, _ = a.conn.Write(icnCtrl(0x05, 0, a.aID, a.aRemote)) // disconnect
|
||||
time.Sleep(15 * time.Millisecond)
|
||||
}
|
||||
_ = a.conn.Close()
|
||||
debugLog.Printf("icom audio: stream closed")
|
||||
})
|
||||
}
|
||||
|
||||
// dialIcomAudio opens the audio UDP stream to rig:50003, binding LOCAL :50003
|
||||
// (mirroring the civ stream's local :50002). The control conninfo (rxenable=1,
|
||||
// audioport=50003) must already have authorized it. sink receives each raw audio
|
||||
// payload. cancel aborts a slow dial (Stop/Start).
|
||||
func dialIcomAudio(host string, sink func([]byte), cancel <-chan struct{}) (*icomAudio, error) {
|
||||
araddr, err := net.ResolveUDPAddr("udp4", net.JoinHostPort(host, "50003"))
|
||||
if err != nil {
|
||||
return nil, err
|
||||
}
|
||||
conn, err := net.DialUDP("udp4", &net.UDPAddr{Port: 50003}, araddr)
|
||||
if err != nil {
|
||||
debugLog.Printf("icom audio: cannot bind local :50003 (Remote Utility running?): %v", err)
|
||||
return nil, err
|
||||
}
|
||||
aID := icnLocalID(conn)
|
||||
aRemote, err := icnHandshake(conn, aID, cancel)
|
||||
if err != nil {
|
||||
_ = conn.Close()
|
||||
debugLog.Printf("icom audio: handshake FAILED: %v", err)
|
||||
return nil, err
|
||||
}
|
||||
_ = conn.SetReadBuffer(1 << 20)
|
||||
a := &icomAudio{
|
||||
conn: conn, aID: aID, aRemote: aRemote,
|
||||
sink: sink,
|
||||
rxMissing: make(map[uint16]int),
|
||||
done: make(chan struct{}),
|
||||
}
|
||||
a.markRx()
|
||||
debugLog.Printf("icom audio: stream up (rig id 0x%08X) — awaiting RX audio", aRemote)
|
||||
go a.audioPump()
|
||||
return a, nil
|
||||
}
|
||||
|
||||
// audioPump drains the audio socket: replies to pings, sends idle keepalives,
|
||||
// requests retransmits for lost packets, and hands each audio payload to sink.
|
||||
func (a *icomAudio) audioPump() {
|
||||
buf := make([]byte, 8192)
|
||||
lastIdle := time.Now()
|
||||
lastReq := time.Now()
|
||||
for {
|
||||
select {
|
||||
case <-a.done:
|
||||
return
|
||||
default:
|
||||
}
|
||||
_ = a.conn.SetReadDeadline(time.Now().Add(100 * time.Millisecond))
|
||||
if k, err := a.conn.Read(buf); err == nil && k >= 16 {
|
||||
a.markRx()
|
||||
switch typ := icnLE.Uint16(buf[4:]); {
|
||||
case typ == 0x07: // ping
|
||||
_, _ = a.conn.Write(icnPingReply(buf[:k], a.aID, a.aRemote))
|
||||
case typ == 0x01: // retransmit request from the rig (we send no tracked audio yet)
|
||||
case typ == 0x05: // rig-initiated disconnect
|
||||
debugLog.Printf("icom audio: rig sent DISCONNECT — audio stream dropped by the rig")
|
||||
case typ == 0x00 && k > icaAudioOffset: // audio data packet
|
||||
a.trackRxSeq(icnLE.Uint16(buf[6:]))
|
||||
if a.dumped < icaDumpFirst {
|
||||
a.dumped++
|
||||
debugLog.Printf("icom audio raw #%d: len=%d head=% X", a.dumped, k, buf[:min(icaAudioOffset+8, k)])
|
||||
}
|
||||
if a.sink != nil {
|
||||
payload := append([]byte(nil), buf[icaAudioOffset:k]...)
|
||||
a.sink(payload)
|
||||
}
|
||||
}
|
||||
}
|
||||
if time.Since(lastIdle) > 100*time.Millisecond {
|
||||
_, _ = a.conn.Write(icnCtrl(0x00, 0, a.aID, a.aRemote))
|
||||
lastIdle = time.Now()
|
||||
}
|
||||
if time.Since(lastReq) > 100*time.Millisecond {
|
||||
a.sendRetransmitReq()
|
||||
lastReq = time.Now()
|
||||
}
|
||||
}
|
||||
}
|
||||
|
||||
// trackRxSeq / sendRetransmitReq mirror icomNet's receive-side retransmit exactly
|
||||
// (audio is as loss-sensitive as the scope stream). Duplicated deliberately so
|
||||
// the audio stream owns its own seq state with no shared locking.
|
||||
func (a *icomAudio) trackRxSeq(seq uint16) {
|
||||
if !a.rxHaveSeq {
|
||||
a.rxHaveSeq = true
|
||||
a.rxLastSeq = seq
|
||||
return
|
||||
}
|
||||
switch d := int16(seq - a.rxLastSeq); {
|
||||
case d == 0:
|
||||
case d < 0:
|
||||
delete(a.rxMissing, seq)
|
||||
case d == 1:
|
||||
a.rxLastSeq = seq
|
||||
case int(d) <= icnMaxMissing:
|
||||
for f := a.rxLastSeq + 1; f != seq; f++ {
|
||||
a.rxMissing[f] = 0
|
||||
}
|
||||
a.rxLastSeq = seq
|
||||
default:
|
||||
a.rxMissing = make(map[uint16]int)
|
||||
a.rxLastSeq = seq
|
||||
}
|
||||
}
|
||||
|
||||
func (a *icomAudio) sendRetransmitReq() {
|
||||
if len(a.rxMissing) == 0 {
|
||||
return
|
||||
}
|
||||
if len(a.rxMissing) > icnMaxMissing {
|
||||
a.rxMissing = make(map[uint16]int)
|
||||
return
|
||||
}
|
||||
var seqs []uint16
|
||||
for s, cnt := range a.rxMissing {
|
||||
if cnt >= 4 {
|
||||
delete(a.rxMissing, s)
|
||||
continue
|
||||
}
|
||||
a.rxMissing[s] = cnt + 1
|
||||
seqs = append(seqs, s)
|
||||
}
|
||||
switch {
|
||||
case len(seqs) == 0:
|
||||
return
|
||||
case len(seqs) == 1:
|
||||
_, _ = a.conn.Write(icnCtrl(0x01, seqs[0], a.aID, a.aRemote))
|
||||
default:
|
||||
b := make([]byte, 16+4*len(seqs))
|
||||
icnLE.PutUint32(b[0:], uint32(len(b)))
|
||||
icnLE.PutUint16(b[4:], 0x01)
|
||||
icnLE.PutUint32(b[8:], a.aID)
|
||||
icnLE.PutUint32(b[12:], a.aRemote)
|
||||
off := 16
|
||||
for _, s := range seqs {
|
||||
icnLE.PutUint16(b[off:], s)
|
||||
icnLE.PutUint16(b[off+2:], s)
|
||||
off += 4
|
||||
}
|
||||
_, _ = a.conn.Write(b)
|
||||
}
|
||||
}
|
||||
@@ -0,0 +1,881 @@
|
||||
package cat
|
||||
|
||||
// icomnet.go — the NETWORK transport for the Icom backend. It talks the Icom IP
|
||||
// remote protocol (the LAN server built into the IC-7610, the one the Icom
|
||||
// Remote Utility speaks) directly, and presents the tunnelled CI-V byte stream
|
||||
// as a plain civTransport (Read/Write). So the entire IcomController surface —
|
||||
// freq/mode, receive-DSP, TX, scope, RIT, CW — runs unchanged over the network;
|
||||
// only the transport differs. OpsLog thus replaces BOTH the Remote Utility and
|
||||
// RS-BA1.
|
||||
//
|
||||
// The protocol (framing, passcode table, packet offsets, power-on) was
|
||||
// reimplemented from the public wfview protocol and verified byte-for-byte
|
||||
// against real Remote-Utility captures. No GPLv3 code is copied.
|
||||
//
|
||||
// Three UDP streams exist on the rig (control 50001 / CI-V 50002 / audio 50003);
|
||||
// this transport uses control + CI-V (audio is not needed for CAT). Connect:
|
||||
// control: areYouThere→iAmHere→areYouReady→iAmReady → login → token → conninfo
|
||||
// civ: areYouThere→…→iAmReady → openClose(open) → power-on
|
||||
// then CI-V flows in data packets. A pump goroutine keeps both streams alive
|
||||
// (ping replies + idle keepalives) and feeds received CI-V bytes to Read.
|
||||
|
||||
import (
|
||||
"encoding/binary"
|
||||
"fmt"
|
||||
"io"
|
||||
"net"
|
||||
"strings"
|
||||
"sync"
|
||||
"sync/atomic"
|
||||
"time"
|
||||
)
|
||||
|
||||
var icnLE = binary.LittleEndian
|
||||
var icnBE = binary.BigEndian
|
||||
|
||||
// NewIcomNet builds an (unconnected) Icom backend whose transport is the network
|
||||
// stream. host is the rig's IP/hostname; user/pass are the rig's Network User1
|
||||
// credentials. Reuses the whole IcomSerial controller — only `open` differs.
|
||||
//
|
||||
// audioSink (optional) enables the network RX audio stream (UDP 50003): when
|
||||
// non-nil the conninfo asks the rig to stream audio and each received payload is
|
||||
// passed to audioSink (the app decodes it via an audio.Codec and plays it). nil
|
||||
// = CI-V only (the proven default). The audio stream is fully separate from CAT,
|
||||
// so enabling it can't affect freq/mode/DSP control.
|
||||
func NewIcomNet(host, user, pass string, civAddr int, digitalDefault string, audioSink func([]byte)) *IcomSerial {
|
||||
if civAddr <= 0 || civAddr > 0xFF {
|
||||
civAddr = 0x98 // IC-7610
|
||||
}
|
||||
if digitalDefault == "" {
|
||||
digitalDefault = "FT8"
|
||||
}
|
||||
b := &IcomSerial{
|
||||
portName: host,
|
||||
rigAddr: byte(civAddr),
|
||||
digital: strings.ToUpper(digitalDefault),
|
||||
model: "Icom",
|
||||
scopeFixed: true,
|
||||
}
|
||||
b.open = func() (civTransport, error) {
|
||||
if strings.TrimSpace(host) == "" {
|
||||
return nil, fmt.Errorf("no rig host configured")
|
||||
}
|
||||
b.dialMu.Lock()
|
||||
cancel := b.dialCancel
|
||||
b.dialMu.Unlock()
|
||||
return dialIcomNet(host, user, pass, "OpsLog", b.rigAddr, cancel, audioSink)
|
||||
}
|
||||
return b
|
||||
}
|
||||
|
||||
// errDialCanceled is returned by dialIcomNet when Interrupt() aborts the dial
|
||||
// (Stop/Start). The Manager treats it like any connect error and simply stops.
|
||||
var errDialCanceled = fmt.Errorf("dial canceled")
|
||||
|
||||
// icnCanceled reports whether the dial has been asked to abort.
|
||||
func icnCanceled(cancel <-chan struct{}) bool {
|
||||
if cancel == nil {
|
||||
return false
|
||||
}
|
||||
select {
|
||||
case <-cancel:
|
||||
return true
|
||||
default:
|
||||
return false
|
||||
}
|
||||
}
|
||||
|
||||
// icomNet is the connected network transport. It satisfies civTransport.
|
||||
type icomNet struct {
|
||||
ctrl *net.UDPConn // control stream (50001)
|
||||
civ *net.UDPConn // CI-V stream (50002)
|
||||
|
||||
cID, cRemote uint32 // control stream ids
|
||||
vID, vRemote uint32 // civ stream ids
|
||||
|
||||
// Tracked-packet sequence + CI-V data sequence. Written only by Write (on the
|
||||
// CAT goroutine) and during dial — never by the pump — so no lock is needed.
|
||||
vTracked uint16
|
||||
vCivSeq uint16
|
||||
|
||||
rx chan []byte // CI-V byte chunks from civPump → Read (control replies)
|
||||
scopeRx chan []byte // scope (0x27) frames, kept off rx so the panadapter
|
||||
// stream can't crowd control replies out (→ ScopeChan)
|
||||
leftover []byte // partial chunk not yet returned by Read (Read-only)
|
||||
readTO time.Duration // Read timeout (SetReadTimeout)
|
||||
|
||||
// sentBuf keeps recently-sent tracked civ packets (by outer seq) so we can
|
||||
// answer the rig's UDP retransmit requests. Written by Write (CAT goroutine),
|
||||
// read by the pumps → guarded by sentMu.
|
||||
sentMu sync.Mutex
|
||||
sentBuf map[uint16][]byte
|
||||
|
||||
// Control-stream auth state, carried out of dial so ctrlPump can RENEW the
|
||||
// login token every ~45 s. The rig invalidates the session ~2 min after login
|
||||
// without renewal (this was the "loses control after 2 min" drop — RS-BA1/the
|
||||
// Remote Utility renew too). Owned solely by ctrlPump after dial → no lock.
|
||||
cTracked uint16 // control-stream tracked seq (continues after dial)
|
||||
cAuthSeq uint16 // token-packet innerseq
|
||||
cToken uint32 // login token (opaque, echoed back verbatim)
|
||||
cTokReq uint16 // token-request id (echoed)
|
||||
cSentBuf map[uint16][]byte // control-stream retransmit buffer (token renewals)
|
||||
|
||||
// Receive-side retransmit (CI-V stream): track the rig's data-packet send seq
|
||||
// and ask it to resend any gap. Under the scope stream, UDP drops are common;
|
||||
// without recovering them the gaps accumulate and the rig drops the WHOLE
|
||||
// session after ~20 s (RS-BA1/wfview request retransmits, which is why they
|
||||
// stay up with the panadapter on). Owned solely by civPump → no lock.
|
||||
rxHaveSeq bool
|
||||
rxLastSeq uint16
|
||||
rxMissing map[uint16]int
|
||||
|
||||
// lastRx is the UnixNano of the last packet received from the rig (any type),
|
||||
// updated by both pumps. The rig's network server answers pings/idles even
|
||||
// when the RADIO is in standby, so this tracks the CONTROL-LINK liveness
|
||||
// independently of whether CI-V is replying — letting ReadState tell "rig off
|
||||
// but link fine" (stay connected) from "link dead" (reconnect). See Alive().
|
||||
lastRx atomic.Int64
|
||||
|
||||
// audio is the optional RX audio stream (UDP 50003). nil when audio is off.
|
||||
// Torn down alongside the CI-V/control streams in Close.
|
||||
audio *icomAudio
|
||||
|
||||
done chan struct{}
|
||||
closeOnce sync.Once
|
||||
}
|
||||
|
||||
// ScopeChan exposes the raw scope (0x27) CI-V frames for the scope feeder.
|
||||
// Satisfies scopeTransport in icomserial.go.
|
||||
func (n *icomNet) ScopeChan() <-chan []byte { return n.scopeRx }
|
||||
|
||||
// icnEnqueueDrop pushes onto a bounded channel, discarding the oldest entry when
|
||||
// full — a lagging consumer never blocks the producer (used for the scope stream,
|
||||
// where only the latest sweep matters).
|
||||
func icnEnqueueDrop(ch chan []byte, v []byte) {
|
||||
select {
|
||||
case ch <- v:
|
||||
default:
|
||||
select {
|
||||
case <-ch:
|
||||
default:
|
||||
}
|
||||
select {
|
||||
case ch <- v:
|
||||
default:
|
||||
}
|
||||
}
|
||||
}
|
||||
|
||||
func (n *icomNet) SetReadTimeout(d time.Duration) error { n.readTO = d; return nil }
|
||||
func (n *icomNet) SetDTR(bool) error { return nil } // n/a on the network
|
||||
func (n *icomNet) SetRTS(bool) error { return nil }
|
||||
|
||||
// markRx records that a packet just arrived from the rig (control-link liveness).
|
||||
func (n *icomNet) markRx() { n.lastRx.Store(time.Now().UnixNano()) }
|
||||
|
||||
// Alive reports whether the rig's network server is still talking to us. The rig
|
||||
// pings/idles continuously (even in standby), so a gap means the link — not just
|
||||
// the radio — is gone. Independent of CI-V replies, so a powered-off rig still
|
||||
// reads as Alive and the session isn't torn down. Satisfies aliveTransport.
|
||||
func (n *icomNet) Alive() bool {
|
||||
last := n.lastRx.Load()
|
||||
if last == 0 {
|
||||
return true // just connected, nothing received yet — give it a chance
|
||||
}
|
||||
return time.Since(time.Unix(0, last)) < 6*time.Second
|
||||
}
|
||||
|
||||
// Read returns tunnelled CI-V bytes, mimicking a serial port: (0,nil) on
|
||||
// timeout, (n,nil) with data, (0,err) when the link is closed.
|
||||
func (n *icomNet) Read(p []byte) (int, error) {
|
||||
if len(n.leftover) > 0 {
|
||||
k := copy(p, n.leftover)
|
||||
n.leftover = n.leftover[k:]
|
||||
return k, nil
|
||||
}
|
||||
to := n.readTO
|
||||
if to <= 0 {
|
||||
to = 60 * time.Millisecond
|
||||
}
|
||||
select {
|
||||
case f, ok := <-n.rx:
|
||||
if !ok {
|
||||
return 0, io.EOF
|
||||
}
|
||||
k := copy(p, f)
|
||||
if k < len(f) {
|
||||
n.leftover = append(n.leftover[:0], f[k:]...)
|
||||
}
|
||||
return k, nil
|
||||
case <-time.After(to):
|
||||
return 0, nil // timeout, no data
|
||||
case <-n.done:
|
||||
return 0, io.EOF
|
||||
}
|
||||
}
|
||||
|
||||
// Write wraps raw CI-V bytes (FE FE … FD) in a data packet and sends them.
|
||||
func (n *icomNet) Write(p []byte) (int, error) {
|
||||
if icnTrace {
|
||||
debugLog.Printf("icom net TX: % X", p)
|
||||
}
|
||||
seq := n.vTracked
|
||||
pkt := icnCivData(seq, n.vID, n.vRemote, n.vCivSeq, p)
|
||||
n.vTracked++
|
||||
n.vCivSeq++
|
||||
n.sentMu.Lock()
|
||||
n.sentBuf[seq] = pkt
|
||||
delete(n.sentBuf, seq-1024) // keep the buffer bounded (~last 1024 packets) so
|
||||
// the rig's retransmit requests still hit even under sustained CW + poll load
|
||||
n.sentMu.Unlock()
|
||||
if _, err := n.civ.Write(pkt); err != nil {
|
||||
return 0, err
|
||||
}
|
||||
return len(p), nil
|
||||
}
|
||||
|
||||
// icnTrace toggles verbose per-frame CI-V request/reply logging for diagnosing
|
||||
// the network transport. Off by default (the connect-step logs stay); flip to
|
||||
// true to trace every TX/RX again.
|
||||
var icnTrace = false
|
||||
|
||||
func (n *icomNet) Close() error {
|
||||
n.closeOnce.Do(func() {
|
||||
close(n.done)
|
||||
if n.audio != nil {
|
||||
n.audio.Close()
|
||||
}
|
||||
// Tell the rig we're leaving so it frees its SINGLE control session at
|
||||
// once. If it never gets a disconnect it holds the session for minutes and
|
||||
// refuses every new login — which is why a lost link (or a hard app exit)
|
||||
// left the rig un-reconnectable, even from the Icom Remote Utility. UDP is
|
||||
// lossy, so send openClose(close) + disconnect on both streams a few times.
|
||||
// The whole teardown is bounded to ~90 ms so it never stalls the caller
|
||||
// (Settings "Save & Close" / a reconnect's Disconnect).
|
||||
for i := 0; i < 3; i++ {
|
||||
_, _ = n.civ.Write(icnOpenClose(n.vTracked, n.vID, n.vRemote, n.vCivSeq, 0x00)) // close CI-V
|
||||
_, _ = n.civ.Write(icnCtrl(0x05, 0, n.vID, n.vRemote)) // disconnect civ
|
||||
_, _ = n.ctrl.Write(icnCtrl(0x05, 0, n.cID, n.cRemote)) // disconnect ctrl
|
||||
time.Sleep(25 * time.Millisecond)
|
||||
}
|
||||
debugLog.Printf("icom net: sent disconnect to rig (session released)")
|
||||
_ = n.civ.Close()
|
||||
_ = n.ctrl.Close()
|
||||
})
|
||||
return nil
|
||||
}
|
||||
|
||||
// ctrlPump keeps the control stream (50001) alive: replies to the rig's pings,
|
||||
// sends idle keepalives, RENEWS the login token every ~45 s (without this the rig
|
||||
// invalidates the session after ~2 min → total loss of control), and answers the
|
||||
// rig's retransmit requests for those tracked control packets. Its own goroutine
|
||||
// so it never throttles civPump.
|
||||
func (n *icomNet) ctrlPump() {
|
||||
buf := make([]byte, 4096)
|
||||
lastIdle := time.Now()
|
||||
lastToken := time.Now() // token was just granted during dial
|
||||
for {
|
||||
select {
|
||||
case <-n.done:
|
||||
return
|
||||
default:
|
||||
}
|
||||
_ = n.ctrl.SetReadDeadline(time.Now().Add(100 * time.Millisecond))
|
||||
if k, err := n.ctrl.Read(buf); err == nil && k >= 16 {
|
||||
n.markRx()
|
||||
switch icnLE.Uint16(buf[4:]) {
|
||||
case 0x07: // ping
|
||||
_, _ = n.ctrl.Write(icnPingReply(buf[:k], n.cID, n.cRemote))
|
||||
case 0x01: // retransmit request — resend from the CONTROL sent-buffer
|
||||
if k >= 8 {
|
||||
n.ctrlResend(icnLE.Uint16(buf[6:]))
|
||||
}
|
||||
case 0x05: // rig-initiated disconnect — it dropped US
|
||||
debugLog.Printf("icom net: rig sent DISCONNECT on control stream — session dropped by the rig")
|
||||
}
|
||||
}
|
||||
if time.Since(lastIdle) > 100*time.Millisecond {
|
||||
_, _ = n.ctrl.Write(icnCtrl(0x00, 0, n.cID, n.cRemote))
|
||||
lastIdle = time.Now()
|
||||
}
|
||||
if time.Since(lastToken) > 45*time.Second {
|
||||
n.renewToken()
|
||||
lastToken = time.Now()
|
||||
}
|
||||
}
|
||||
}
|
||||
|
||||
// renewToken re-authorizes the session (control 0x40 token packet, requesttype
|
||||
// 0x05). Tracked so a lost renewal can be retransmitted. Runs only on ctrlPump,
|
||||
// the sole owner of the control-stream auth state, so no locking is needed.
|
||||
func (n *icomNet) renewToken() {
|
||||
seq := n.cTracked
|
||||
pkt := icnTokenRenew(seq, n.cAuthSeq, n.cTokReq, n.cID, n.cRemote, n.cToken)
|
||||
n.cTracked++
|
||||
n.cAuthSeq++
|
||||
n.cSentBuf[seq] = pkt
|
||||
delete(n.cSentBuf, seq-256)
|
||||
_, _ = n.ctrl.Write(pkt)
|
||||
debugLog.Printf("icom net: token renewed (seq %d)", seq)
|
||||
}
|
||||
|
||||
// ctrlResend answers a control-stream retransmit request from the control
|
||||
// sent-buffer (token renewals). Separate from resend(), which owns the CI-V
|
||||
// buffer — the two streams have independent sequence spaces.
|
||||
func (n *icomNet) ctrlResend(seq uint16) {
|
||||
if pkt := n.cSentBuf[seq]; pkt != nil {
|
||||
_, _ = n.ctrl.Write(pkt)
|
||||
}
|
||||
}
|
||||
|
||||
// civPump owns the CI-V stream (50002): drains it as fast as packets arrive
|
||||
// (its own goroutine — not throttled by the control reads), replies to pings,
|
||||
// answers retransmit requests, skips scope frames, and feeds control CI-V bytes
|
||||
// to Read via n.rx.
|
||||
func (n *icomNet) civPump() {
|
||||
buf := make([]byte, 8192)
|
||||
lastIdle := time.Now()
|
||||
lastReq := time.Now()
|
||||
for {
|
||||
select {
|
||||
case <-n.done:
|
||||
return
|
||||
default:
|
||||
}
|
||||
_ = n.civ.SetReadDeadline(time.Now().Add(100 * time.Millisecond))
|
||||
if k, err := n.civ.Read(buf); err == nil && k >= 16 {
|
||||
n.markRx()
|
||||
switch typ := icnLE.Uint16(buf[4:]); {
|
||||
case typ == 0x07: // ping
|
||||
_, _ = n.civ.Write(icnPingReply(buf[:k], n.vID, n.vRemote))
|
||||
case typ == 0x01: // retransmit request — resend that seq
|
||||
if k >= 8 {
|
||||
n.resend(icnLE.Uint16(buf[6:]))
|
||||
}
|
||||
case typ == 0x05: // rig-initiated disconnect — it dropped US
|
||||
debugLog.Printf("icom net: rig sent DISCONNECT on CI-V stream — session dropped by the rig")
|
||||
case typ == 0x00 && k > 0x15 && buf[0x10] == 0xc1: // CI-V data
|
||||
n.trackRxSeq(icnLE.Uint16(buf[6:])) // note gaps for retransmit
|
||||
civBytes := buf[0x15:k]
|
||||
cp := append([]byte(nil), civBytes...)
|
||||
// Scope (0x27) frames go to their OWN channel: the panadapter streams
|
||||
// continuously as large frames and would otherwise crowd control
|
||||
// replies out of rx (every command would then time out). The scope
|
||||
// feeder in IcomSerial picks them up. Everything else is a control
|
||||
// reply → rx → Read.
|
||||
if len(civBytes) >= 5 && civBytes[4] == 0x27 {
|
||||
icnEnqueueDrop(n.scopeRx, cp)
|
||||
break
|
||||
}
|
||||
if icnTrace {
|
||||
debugLog.Printf("icom net RX: % X", civBytes)
|
||||
}
|
||||
select {
|
||||
case n.rx <- cp:
|
||||
case <-n.done:
|
||||
return
|
||||
default: // buffer full — drop oldest, enqueue newest
|
||||
select {
|
||||
case <-n.rx:
|
||||
default:
|
||||
}
|
||||
select {
|
||||
case n.rx <- cp:
|
||||
default:
|
||||
}
|
||||
}
|
||||
}
|
||||
}
|
||||
if time.Since(lastIdle) > 150*time.Millisecond {
|
||||
_, _ = n.civ.Write(icnCtrl(0x00, 0, n.vID, n.vRemote))
|
||||
lastIdle = time.Now()
|
||||
}
|
||||
if time.Since(lastReq) > 100*time.Millisecond {
|
||||
n.sendRetransmitReq()
|
||||
lastReq = time.Now()
|
||||
}
|
||||
}
|
||||
}
|
||||
|
||||
// icnMaxMissing caps the outstanding retransmit backlog; a bigger jump is treated
|
||||
// as a wrap/desync and the tracker resets rather than requesting a storm.
|
||||
const icnMaxMissing = 50
|
||||
|
||||
// trackRxSeq records the rig's data-packet send seq (outer seq @0x06) and flags
|
||||
// any forward gap as missing so sendRetransmitReq can ask for it. Handles uint16
|
||||
// wrap via the signed distance; ignores duplicates and already-seen packets.
|
||||
func (n *icomNet) trackRxSeq(seq uint16) {
|
||||
if !n.rxHaveSeq {
|
||||
n.rxHaveSeq = true
|
||||
n.rxLastSeq = seq
|
||||
return
|
||||
}
|
||||
switch d := int16(seq - n.rxLastSeq); {
|
||||
case d == 0: // duplicate
|
||||
case d < 0: // an older seq arrived — a retransmit we were missing
|
||||
delete(n.rxMissing, seq)
|
||||
case d == 1: // in order
|
||||
n.rxLastSeq = seq
|
||||
case int(d) <= icnMaxMissing: // forward gap — mark the in-between seqs missing
|
||||
for f := n.rxLastSeq + 1; f != seq; f++ {
|
||||
n.rxMissing[f] = 0
|
||||
}
|
||||
n.rxLastSeq = seq
|
||||
default: // huge jump (wrap/desync) — reset to avoid a false retransmit storm
|
||||
n.rxMissing = make(map[uint16]int)
|
||||
n.rxLastSeq = seq
|
||||
}
|
||||
}
|
||||
|
||||
// sendRetransmitReq asks the rig to resend any CI-V data packets we detected as
|
||||
// missing. Each seq is requested up to 4 times then dropped. Mirrors the Remote
|
||||
// Utility/wfview format: a single miss = a 16-byte control (type 0x01, seq set);
|
||||
// several = a control header + a list of [lo hi lo hi] per seq.
|
||||
func (n *icomNet) sendRetransmitReq() {
|
||||
if len(n.rxMissing) == 0 {
|
||||
return
|
||||
}
|
||||
if len(n.rxMissing) > icnMaxMissing {
|
||||
n.rxMissing = make(map[uint16]int) // hopelessly behind — flush and move on
|
||||
return
|
||||
}
|
||||
var seqs []uint16
|
||||
for s, cnt := range n.rxMissing {
|
||||
if cnt >= 4 {
|
||||
delete(n.rxMissing, s)
|
||||
continue
|
||||
}
|
||||
n.rxMissing[s] = cnt + 1
|
||||
seqs = append(seqs, s)
|
||||
}
|
||||
switch {
|
||||
case len(seqs) == 0:
|
||||
return
|
||||
case len(seqs) == 1:
|
||||
_, _ = n.civ.Write(icnCtrl(0x01, seqs[0], n.vID, n.vRemote))
|
||||
default:
|
||||
b := make([]byte, 16+4*len(seqs))
|
||||
icnLE.PutUint32(b[0:], uint32(len(b)))
|
||||
icnLE.PutUint16(b[4:], 0x01) // type = retransmit request
|
||||
icnLE.PutUint32(b[8:], n.vID)
|
||||
icnLE.PutUint32(b[12:], n.vRemote)
|
||||
off := 16
|
||||
for _, s := range seqs {
|
||||
icnLE.PutUint16(b[off:], s)
|
||||
icnLE.PutUint16(b[off+2:], s)
|
||||
off += 4
|
||||
}
|
||||
_, _ = n.civ.Write(b)
|
||||
}
|
||||
}
|
||||
|
||||
// resend re-transmits a previously-sent tracked CI-V packet the rig asks for
|
||||
// (its UDP retransmit mechanism). Without this the rig drops the whole session
|
||||
// after a few seconds when a packet is lost under load.
|
||||
func (n *icomNet) resend(seq uint16) {
|
||||
n.sentMu.Lock()
|
||||
pkt := n.sentBuf[seq]
|
||||
n.sentMu.Unlock()
|
||||
if pkt != nil {
|
||||
_, _ = n.civ.Write(pkt)
|
||||
} else {
|
||||
// The rig asked for a packet we've already evicted (>256 sent since). It
|
||||
// can't fill its gap → it eventually drops the session. If this shows up in
|
||||
// the log around a disconnect, the send buffer is too small for the load.
|
||||
debugLog.Printf("icom net: retransmit MISS for seq %d (already evicted)", seq)
|
||||
}
|
||||
}
|
||||
|
||||
// ------------------------- connect -------------------------
|
||||
|
||||
func dialIcomNet(host, user, pass, compName string, rigAddr byte, cancel <-chan struct{}, audioSink func([]byte)) (*icomNet, error) {
|
||||
wantAudio := audioSink != nil
|
||||
debugLog.Printf("icom net: connecting to %s (user %q, comp %q, rig addr 0x%02X, audio=%v)", host, user, compName, rigAddr, wantAudio)
|
||||
// ---- control stream (50001): handshake → login → token → conninfo ----
|
||||
craddr, err := net.ResolveUDPAddr("udp4", net.JoinHostPort(host, "50001"))
|
||||
if err != nil {
|
||||
return nil, err
|
||||
}
|
||||
ctrl, err := net.DialUDP("udp4", nil, craddr)
|
||||
if err != nil {
|
||||
return nil, fmt.Errorf("dial control: %w", err)
|
||||
}
|
||||
cID := icnLocalID(ctrl)
|
||||
cRemote, err := icnHandshake(ctrl, cID, cancel)
|
||||
if err != nil {
|
||||
_ = ctrl.Close()
|
||||
debugLog.Printf("icom net: control handshake FAILED (rig unreachable at %s:50001?): %v", host, err)
|
||||
return nil, fmt.Errorf("control handshake: %w", err)
|
||||
}
|
||||
debugLog.Printf("icom net: control link up (rig id 0x%08X) — logging in", cRemote)
|
||||
|
||||
var cTracked, cInner uint16 = 1, 1
|
||||
tokReq := uint16(0x0c77)
|
||||
_, _ = ctrl.Write(icnLogin(cTracked, cInner, tokReq, cID, cRemote, 0, user, pass, compName))
|
||||
cTracked++
|
||||
cInner++
|
||||
|
||||
var token uint32
|
||||
buf := make([]byte, 2048)
|
||||
deadline := time.Now().Add(5 * time.Second)
|
||||
for token == 0 && time.Now().Before(deadline) {
|
||||
if icnCanceled(cancel) {
|
||||
_ = ctrl.Close()
|
||||
return nil, errDialCanceled
|
||||
}
|
||||
p, ok := icnRecv(ctrl, 200, buf)
|
||||
if !ok {
|
||||
continue
|
||||
}
|
||||
length := icnLE.Uint32(p[0:])
|
||||
typ := icnLE.Uint16(p[4:])
|
||||
if typ == 0x00 && length == 0x60 && len(p) >= 0x34 { // login response
|
||||
token = icnLE.Uint32(p[0x1c:])
|
||||
if e := icnLE.Uint32(p[0x30:]); e != 0 || token == 0 {
|
||||
_ = ctrl.Close()
|
||||
debugLog.Printf("icom net: LOGIN REJECTED (err=0x%08X) — wrong Network User1 ID/Password", e)
|
||||
return nil, fmt.Errorf("login rejected — check the rig's Network User1 ID/Password")
|
||||
}
|
||||
_, _ = ctrl.Write(icnToken(cTracked, cInner, tokReq, cID, cRemote, token))
|
||||
cTracked++
|
||||
cInner++
|
||||
debugLog.Printf("icom net: LOGIN OK, token 0x%08X", token)
|
||||
} else if typ == 0x07 {
|
||||
_, _ = ctrl.Write(icnPingReply(p, cID, cRemote))
|
||||
}
|
||||
}
|
||||
if token == 0 {
|
||||
_ = ctrl.Close()
|
||||
debugLog.Printf("icom net: login TIMED OUT (no token in 5s) — check host/credentials")
|
||||
return nil, fmt.Errorf("login timed out (no token) — check host/credentials")
|
||||
}
|
||||
|
||||
// Learn the rig's MAC from its conninfo push (144B) to echo in our conninfo.
|
||||
var rigMAC []byte
|
||||
macEnd := time.Now().Add(1200 * time.Millisecond)
|
||||
for time.Now().Before(macEnd) {
|
||||
if icnCanceled(cancel) {
|
||||
_ = ctrl.Close()
|
||||
return nil, errDialCanceled
|
||||
}
|
||||
p, ok := icnRecv(ctrl, 150, buf)
|
||||
if !ok {
|
||||
continue
|
||||
}
|
||||
if len(p) >= 0x30 && icnLE.Uint32(p[0:]) == 0x90 { // 144-byte conninfo push
|
||||
rigMAC = append([]byte(nil), p[0x2a:0x30]...)
|
||||
}
|
||||
if icnLE.Uint16(p[4:]) == 0x07 {
|
||||
_, _ = ctrl.Write(icnPingReply(p, cID, cRemote))
|
||||
}
|
||||
if rigMAC != nil {
|
||||
break
|
||||
}
|
||||
}
|
||||
if rigMAC == nil {
|
||||
rigMAC = make([]byte, 6)
|
||||
}
|
||||
|
||||
var rxEnable byte
|
||||
if wantAudio {
|
||||
rxEnable = 0x01 // ask the rig to stream RX audio on 50003
|
||||
}
|
||||
_, _ = ctrl.Write(icnConnInfo(cTracked, cInner, tokReq, cID, cRemote, token, user, rigMAC, 50002, 50003, rxEnable))
|
||||
cTracked++
|
||||
cInner++
|
||||
drainEnd := time.Now().Add(500 * time.Millisecond)
|
||||
for time.Now().Before(drainEnd) {
|
||||
if icnCanceled(cancel) {
|
||||
_ = ctrl.Close()
|
||||
return nil, errDialCanceled
|
||||
}
|
||||
if p, ok := icnRecv(ctrl, 100, buf); ok && icnLE.Uint16(p[4:]) == 0x07 {
|
||||
_, _ = ctrl.Write(icnPingReply(p, cID, cRemote))
|
||||
}
|
||||
}
|
||||
|
||||
// ---- CI-V stream (50002): bind LOCAL :50002 (the announced civport) ----
|
||||
vraddr, err := net.ResolveUDPAddr("udp4", net.JoinHostPort(host, "50002"))
|
||||
if err != nil {
|
||||
_ = ctrl.Close()
|
||||
return nil, err
|
||||
}
|
||||
debugLog.Printf("icom net: conninfo sent (rig mac % X) — opening CI-V stream", rigMAC)
|
||||
civ, err := net.DialUDP("udp4", &net.UDPAddr{Port: 50002}, vraddr)
|
||||
if err != nil {
|
||||
_ = ctrl.Close()
|
||||
debugLog.Printf("icom net: cannot bind local :50002 — the Icom Remote Utility is probably still running: %v", err)
|
||||
return nil, fmt.Errorf("dial CI-V (local :50002 — is the Icom Remote Utility still running?): %w", err)
|
||||
}
|
||||
vID := icnLocalID(civ)
|
||||
vRemote, err := icnHandshake(civ, vID, cancel)
|
||||
if err != nil {
|
||||
_ = civ.Close()
|
||||
_ = ctrl.Close()
|
||||
debugLog.Printf("icom net: CI-V handshake FAILED: %v", err)
|
||||
return nil, fmt.Errorf("CI-V handshake: %w", err)
|
||||
}
|
||||
debugLog.Printf("icom net: CI-V link up — opening the CI-V data flow (rig power left to the ON button)")
|
||||
|
||||
// Bigger receive buffers so a burst of scope/CI-V packets doesn't overflow
|
||||
// (dropped packets → the rig's retransmit requests → session drop).
|
||||
_ = ctrl.SetReadBuffer(1 << 20)
|
||||
_ = civ.SetReadBuffer(1 << 20)
|
||||
|
||||
n := &icomNet{
|
||||
ctrl: ctrl, civ: civ,
|
||||
cID: cID, cRemote: cRemote, vID: vID, vRemote: vRemote,
|
||||
vTracked: 1, vCivSeq: 1,
|
||||
rx: make(chan []byte, 256),
|
||||
scopeRx: make(chan []byte, 8),
|
||||
sentBuf: make(map[uint16][]byte),
|
||||
rxMissing: make(map[uint16]int),
|
||||
done: make(chan struct{}),
|
||||
// Auth state for periodic token renewal (see ctrlPump). cTracked/cAuthSeq
|
||||
// continue the control-stream sequences from where the dial's login/token/
|
||||
// conninfo left off.
|
||||
cTracked: cTracked, cAuthSeq: cInner,
|
||||
cToken: token, cTokReq: tokReq,
|
||||
cSentBuf: make(map[uint16][]byte),
|
||||
}
|
||||
n.markRx() // the successful handshake counts as initial rig activity
|
||||
// openClose(open) starts the CI-V data flow. We intentionally DO NOT power the
|
||||
// rig on here — that's a manual ON button now (the user asked not to wake the
|
||||
// rig at launch). If the rig is in standby the control/CI-V streams still stay
|
||||
// up and Alive() stays true (the rig's server answers pings even when the radio
|
||||
// is off), so the session doesn't flap; CI-V just stays silent until ON.
|
||||
ocPkt := icnOpenClose(n.vTracked, vID, vRemote, n.vCivSeq, 0x04)
|
||||
n.sentBuf[n.vTracked] = ocPkt
|
||||
_, _ = civ.Write(ocPkt)
|
||||
n.vTracked++
|
||||
n.vCivSeq++
|
||||
|
||||
go n.ctrlPump()
|
||||
go n.civPump()
|
||||
|
||||
// Optional RX audio stream (50003). The rig was told (conninfo rxEnable=1) to
|
||||
// stream audio; open the socket + handshake now. A failure here is NON-fatal:
|
||||
// CAT works without audio, so we log and continue rather than tear down a
|
||||
// perfectly good control/CI-V session.
|
||||
if wantAudio {
|
||||
if a, err := dialIcomAudio(host, audioSink, cancel); err != nil {
|
||||
debugLog.Printf("icom net: audio stream FAILED (CAT unaffected): %v", err)
|
||||
} else {
|
||||
n.audio = a
|
||||
}
|
||||
}
|
||||
return n, nil
|
||||
}
|
||||
|
||||
// icnHandshake: areYouThere(seq0) → iAmHere → areYouReady(seq1) → iAmReady.
|
||||
func icnHandshake(c *net.UDPConn, myID uint32, cancel <-chan struct{}) (uint32, error) {
|
||||
buf := make([]byte, 2048)
|
||||
_, _ = c.Write(icnCtrl(0x03, 0, myID, 0))
|
||||
var remoteID uint32
|
||||
deadline := time.Now().Add(4 * time.Second)
|
||||
lastTry := time.Now()
|
||||
for time.Now().Before(deadline) {
|
||||
if icnCanceled(cancel) {
|
||||
return 0, errDialCanceled
|
||||
}
|
||||
p, ok := icnRecv(c, 200, buf)
|
||||
if !ok {
|
||||
if remoteID == 0 && time.Since(lastTry) > 500*time.Millisecond {
|
||||
_, _ = c.Write(icnCtrl(0x03, 0, myID, 0))
|
||||
lastTry = time.Now()
|
||||
}
|
||||
continue
|
||||
}
|
||||
typ := icnLE.Uint16(p[4:])
|
||||
sentid := icnLE.Uint32(p[8:])
|
||||
switch typ {
|
||||
case 0x04: // iAmHere
|
||||
remoteID = sentid
|
||||
_, _ = c.Write(icnCtrl(0x06, 1, myID, remoteID))
|
||||
case 0x06: // iAmReady
|
||||
if remoteID != 0 {
|
||||
return remoteID, nil
|
||||
}
|
||||
case 0x07: // ping
|
||||
_, _ = c.Write(icnPingReply(p, myID, remoteID))
|
||||
}
|
||||
}
|
||||
return 0, fmt.Errorf("handshake timeout")
|
||||
}
|
||||
|
||||
func icnRecv(c *net.UDPConn, ms int, buf []byte) ([]byte, bool) {
|
||||
_ = c.SetReadDeadline(time.Now().Add(time.Duration(ms) * time.Millisecond))
|
||||
k, err := c.Read(buf)
|
||||
if err != nil || k < 16 {
|
||||
return nil, false
|
||||
}
|
||||
return buf[:k], true
|
||||
}
|
||||
|
||||
func icnLocalID(c *net.UDPConn) uint32 {
|
||||
a := c.LocalAddr().(*net.UDPAddr)
|
||||
ip := a.IP.To4()
|
||||
if ip == nil {
|
||||
ip = []byte{192, 168, 0, 1}
|
||||
}
|
||||
return uint32(ip[0])<<24 | uint32(ip[1])<<16 | uint32(uint16(a.Port))
|
||||
}
|
||||
|
||||
// ------------------------- packet builders -------------------------
|
||||
// (offsets verified vs wfview structs + real captures)
|
||||
|
||||
func icnCtrl(typ, seq uint16, sentid, rcvdid uint32) []byte {
|
||||
b := make([]byte, 16)
|
||||
icnLE.PutUint32(b[0:], 0x10)
|
||||
icnLE.PutUint16(b[4:], typ)
|
||||
icnLE.PutUint16(b[6:], seq)
|
||||
icnLE.PutUint32(b[8:], sentid)
|
||||
icnLE.PutUint32(b[12:], rcvdid)
|
||||
return b
|
||||
}
|
||||
|
||||
func icnPingReply(pkt []byte, myID, remoteID uint32) []byte {
|
||||
r := append([]byte(nil), pkt...)
|
||||
if len(r) >= 17 {
|
||||
icnLE.PutUint32(r[8:], myID)
|
||||
icnLE.PutUint32(r[12:], remoteID)
|
||||
r[16] = 0x01
|
||||
}
|
||||
return r
|
||||
}
|
||||
|
||||
func icnLogin(seq, innerSeq, tokReq uint16, sentid, rcvdid, token uint32, user, pass, name string) []byte {
|
||||
b := make([]byte, 0x80)
|
||||
icnLE.PutUint32(b[0:], 0x80)
|
||||
icnLE.PutUint16(b[6:], seq)
|
||||
icnLE.PutUint32(b[8:], sentid)
|
||||
icnLE.PutUint32(b[12:], rcvdid)
|
||||
icnBE.PutUint32(b[0x10:], 0x80-0x10)
|
||||
b[0x14] = 0x01
|
||||
b[0x15] = 0x00
|
||||
icnBE.PutUint16(b[0x16:], innerSeq)
|
||||
icnLE.PutUint16(b[0x1a:], tokReq)
|
||||
icnLE.PutUint32(b[0x1c:], token)
|
||||
copy(b[0x40:0x50], icnPasscode(user))
|
||||
copy(b[0x50:0x60], icnPasscode(pass))
|
||||
nm := name
|
||||
if len(nm) > 16 {
|
||||
nm = nm[:16]
|
||||
}
|
||||
copy(b[0x60:0x70], []byte(nm))
|
||||
return b
|
||||
}
|
||||
|
||||
func icnToken(seq, innerSeq, tokReq uint16, sentid, rcvdid, token uint32) []byte {
|
||||
b := make([]byte, 0x40)
|
||||
icnLE.PutUint32(b[0:], 0x40)
|
||||
icnLE.PutUint16(b[6:], seq)
|
||||
icnLE.PutUint32(b[8:], sentid)
|
||||
icnLE.PutUint32(b[12:], rcvdid)
|
||||
icnBE.PutUint32(b[0x10:], 0x40-0x10)
|
||||
b[0x14] = 0x01
|
||||
b[0x15] = 0x02
|
||||
icnBE.PutUint16(b[0x16:], innerSeq)
|
||||
icnLE.PutUint16(b[0x1a:], tokReq)
|
||||
icnLE.PutUint32(b[0x1c:], token)
|
||||
return b
|
||||
}
|
||||
|
||||
// icnTokenRenew builds the periodic token-renewal packet (control 0x40). Same as
|
||||
// the login-time token confirm but requesttype 0x05 (renew) with the resetcap
|
||||
// field (0x0798 BE @0x24) the Remote Utility sends on renewals. Keeps the rig
|
||||
// from invalidating the session (~2-min timeout without renewal). Offsets per the
|
||||
// wfview token_packet struct (verified) — protocol facts, not copied code.
|
||||
func icnTokenRenew(seq, innerSeq, tokReq uint16, sentid, rcvdid, token uint32) []byte {
|
||||
b := make([]byte, 0x40)
|
||||
icnLE.PutUint32(b[0:], 0x40)
|
||||
icnLE.PutUint16(b[6:], seq)
|
||||
icnLE.PutUint32(b[8:], sentid)
|
||||
icnLE.PutUint32(b[12:], rcvdid)
|
||||
icnBE.PutUint32(b[0x10:], 0x40-0x10)
|
||||
b[0x14] = 0x01 // requestreply = request
|
||||
b[0x15] = 0x05 // requesttype = token renewal
|
||||
icnBE.PutUint16(b[0x16:], innerSeq)
|
||||
icnLE.PutUint16(b[0x1a:], tokReq)
|
||||
icnLE.PutUint32(b[0x1c:], token)
|
||||
icnBE.PutUint16(b[0x24:], 0x0798) // resetcap
|
||||
return b
|
||||
}
|
||||
|
||||
func icnConnInfo(seq, innerSeq, tokReq uint16, sentid, rcvdid, token uint32, user string, rigMAC []byte, civPort, audioPort uint16, rxEnable byte) []byte {
|
||||
b := make([]byte, 0x90)
|
||||
icnLE.PutUint32(b[0:], 0x90)
|
||||
icnLE.PutUint16(b[6:], seq)
|
||||
icnLE.PutUint32(b[8:], sentid)
|
||||
icnLE.PutUint32(b[12:], rcvdid)
|
||||
icnBE.PutUint32(b[0x10:], 0x90-0x10)
|
||||
b[0x14] = 0x01
|
||||
b[0x15] = 0x03 // requesttype = conninfo / open streams
|
||||
icnBE.PutUint16(b[0x16:], innerSeq)
|
||||
icnLE.PutUint16(b[0x1a:], tokReq)
|
||||
icnLE.PutUint32(b[0x1c:], token)
|
||||
icnLE.PutUint16(b[0x27:], 0x8010) // commoncap
|
||||
copy(b[0x2a:0x30], rigMAC)
|
||||
copy(b[0x40:0x60], []byte("IC-7610"))
|
||||
copy(b[0x60:0x70], icnPasscode(user))
|
||||
b[0x70] = rxEnable // rxenable: 1 opens the 50003 RX audio stream, 0 = CI-V only
|
||||
b[0x71] = 0x00 // txenable (Phase 5)
|
||||
b[0x72] = 0x10 // rxcodec
|
||||
b[0x73] = 0x04 // txcodec
|
||||
icnBE.PutUint32(b[0x74:], 16000)
|
||||
icnBE.PutUint32(b[0x78:], 8000)
|
||||
icnBE.PutUint32(b[0x7c:], uint32(civPort))
|
||||
icnBE.PutUint32(b[0x80:], uint32(audioPort))
|
||||
icnBE.PutUint32(b[0x84:], 100)
|
||||
b[0x88] = 0x00
|
||||
return b
|
||||
}
|
||||
|
||||
func icnOpenClose(seq uint16, sentid, rcvdid uint32, civSeq uint16, magic byte) []byte {
|
||||
b := make([]byte, 0x16)
|
||||
icnLE.PutUint32(b[0:], 0x16)
|
||||
icnLE.PutUint16(b[6:], seq)
|
||||
icnLE.PutUint32(b[8:], sentid)
|
||||
icnLE.PutUint32(b[12:], rcvdid)
|
||||
icnLE.PutUint16(b[0x10:], 0x01c0)
|
||||
icnBE.PutUint16(b[0x13:], civSeq)
|
||||
b[0x15] = magic
|
||||
return b
|
||||
}
|
||||
|
||||
func icnCivData(seq uint16, sentid, rcvdid uint32, civSeq uint16, civ []byte) []byte {
|
||||
nn := 0x15 + len(civ)
|
||||
b := make([]byte, nn)
|
||||
icnLE.PutUint32(b[0:], uint32(nn))
|
||||
icnLE.PutUint16(b[6:], seq)
|
||||
icnLE.PutUint32(b[8:], sentid)
|
||||
icnLE.PutUint32(b[12:], rcvdid)
|
||||
b[0x10] = 0xc1
|
||||
icnLE.PutUint16(b[0x11:], uint16(len(civ)))
|
||||
icnBE.PutUint16(b[0x13:], civSeq)
|
||||
copy(b[0x15:], civ)
|
||||
return b
|
||||
}
|
||||
|
||||
// icnPasscodeSeq — Icom's obfuscation table (values at index 0x20..0x7e).
|
||||
// VERIFIED: user "f6bgc" → 3F 65 50 25 55 (matches the capture).
|
||||
var icnPasscodeSeq = [256]byte{
|
||||
0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0,
|
||||
0x47, 0x5d, 0x4c, 0x42, 0x66, 0x20, 0x23, 0x46, 0x4e, 0x57, 0x45, 0x3d, 0x67, 0x76, 0x60, 0x41, 0x62, 0x39, 0x59, 0x2d, 0x68, 0x7e,
|
||||
0x7c, 0x65, 0x7d, 0x49, 0x29, 0x72, 0x73, 0x78, 0x21, 0x6e, 0x5a, 0x5e, 0x4a, 0x3e, 0x71, 0x2c, 0x2a, 0x54, 0x3c, 0x3a, 0x63, 0x4f,
|
||||
0x43, 0x75, 0x27, 0x79, 0x5b, 0x35, 0x70, 0x48, 0x6b, 0x56, 0x6f, 0x34, 0x32, 0x6c, 0x30, 0x61, 0x6d, 0x7b, 0x2f, 0x4b, 0x64, 0x38,
|
||||
0x2b, 0x2e, 0x50, 0x40, 0x3f, 0x55, 0x33, 0x37, 0x25, 0x77, 0x24, 0x26, 0x74, 0x6a, 0x28, 0x53, 0x4d, 0x69, 0x22, 0x5c, 0x44, 0x31,
|
||||
0x36, 0x58, 0x3b, 0x7a, 0x51, 0x5f, 0x52,
|
||||
}
|
||||
|
||||
func icnPasscode(s string) []byte {
|
||||
out := make([]byte, 0, len(s))
|
||||
for i := 0; i < len(s) && i < 16; i++ {
|
||||
p := int(s[i]) + i
|
||||
if p > 126 {
|
||||
p = 32 + p%127
|
||||
}
|
||||
out = append(out, icnPasscodeSeq[p])
|
||||
}
|
||||
return out
|
||||
}
|
||||
+481
-11
@@ -27,6 +27,26 @@ type civTransport interface {
|
||||
SetRTS(bool) error
|
||||
}
|
||||
|
||||
// aliveTransport is an OPTIONAL transport capability: report whether the link is
|
||||
// still up independently of whether the rig answers CI-V. The network transport
|
||||
// implements it (the rig's server pings even in standby), letting ReadState keep
|
||||
// the session "connected but rig off" instead of tearing it down and flapping.
|
||||
// USB doesn't implement it (no such out-of-band signal), so it keeps the bounded
|
||||
// read-failure tolerance instead.
|
||||
type aliveTransport interface {
|
||||
Alive() bool
|
||||
}
|
||||
|
||||
// scopeTransport is an OPTIONAL transport capability: deliver spectrum-scope
|
||||
// (0x27) frames on a SEPARATE channel from control replies. The network transport
|
||||
// implements it so the continuous panadapter stream can't crowd control replies
|
||||
// out of the main Read path (which made every command time out with the scope
|
||||
// on). USB doesn't implement it — there the scope frames ride the normal Read
|
||||
// path and the reader splits them off to specCh.
|
||||
type scopeTransport interface {
|
||||
ScopeChan() <-chan []byte
|
||||
}
|
||||
|
||||
// IcomSerial controls an Icom transceiver over the shared civ protocol. The
|
||||
// transport is pluggable via `open`: NewIcomSerial opens a USB/serial port;
|
||||
// NewIcomNet (later) returns one configured with a network transport. Implements
|
||||
@@ -75,6 +95,8 @@ type IcomSerial struct {
|
||||
splitOn bool // last read split state (refreshed every few cycles)
|
||||
splitTXFreq int64 // last read unselected/TX VFO freq while in split
|
||||
readFails int // consecutive ReadState freq-read failures (transient tolerance)
|
||||
dspLoaded bool // readDSP has run since the rig became responsive (loads all
|
||||
// the panel's set-once controls once the rig actually answers)
|
||||
lastSetFreq int64 // last frequency commanded (spot click: freq then mode)
|
||||
lastSetFreqAt time.Time
|
||||
|
||||
@@ -83,6 +105,29 @@ type IcomSerial struct {
|
||||
// / setters) — hence the mutex.
|
||||
dspMu sync.Mutex
|
||||
dsp IcomTXState
|
||||
|
||||
// dialCancel is closed by Interrupt() to abort an in-progress network dial
|
||||
// (icomnet's handshake/login/boot-wait can block ~tens of seconds). A fresh
|
||||
// channel is made by each Connect. Guarded by dialMu: written on the CAT
|
||||
// goroutine, closed from the goroutine calling Stop.
|
||||
dialMu sync.Mutex
|
||||
dialCancel chan struct{}
|
||||
}
|
||||
|
||||
// Interrupt aborts an in-progress network Connect so Stop()/Start() don't block
|
||||
// on a slow UDP handshake (or the 25 s boot-from-standby wait). Safe to call at
|
||||
// any time and from another goroutine; harmless when no dial is in progress and
|
||||
// a no-op for the USB transport (which dials instantly).
|
||||
func (b *IcomSerial) Interrupt() {
|
||||
b.dialMu.Lock()
|
||||
if b.dialCancel != nil {
|
||||
select {
|
||||
case <-b.dialCancel: // already closed
|
||||
default:
|
||||
close(b.dialCancel)
|
||||
}
|
||||
}
|
||||
b.dialMu.Unlock()
|
||||
}
|
||||
|
||||
const (
|
||||
@@ -130,6 +175,11 @@ func (b *IcomSerial) Connect() error {
|
||||
if b.open == nil {
|
||||
return fmt.Errorf("no transport configured")
|
||||
}
|
||||
// Fresh cancel channel for this dial so Interrupt() (called by Stop) can abort
|
||||
// a slow network handshake instead of freezing the UI.
|
||||
b.dialMu.Lock()
|
||||
b.dialCancel = make(chan struct{})
|
||||
b.dialMu.Unlock()
|
||||
port, err := b.open()
|
||||
if err != nil {
|
||||
return err
|
||||
@@ -154,19 +204,36 @@ func (b *IcomSerial) Connect() error {
|
||||
b.readerDone = make(chan struct{})
|
||||
go b.reader(port, b.readerDone)
|
||||
go b.scopeLoop(b.specCh, b.readerDone)
|
||||
// On the network the scope frames come on their own channel (kept off the
|
||||
// control Read path); feed them into the same scope pipeline.
|
||||
if sc, ok := port.(scopeTransport); ok {
|
||||
go b.netScopeFeeder(sc.ScopeChan(), b.readerDone)
|
||||
}
|
||||
|
||||
// Best-effort model identification: ask the rig for its own CI-V address.
|
||||
// Best-effort model identification: ask the rig for its own CI-V address. The
|
||||
// 0x19 ID read returns the rig's FACTORY default address (e.g. 0x94 for an
|
||||
// IC-7300) regardless of the address it's currently OPERATING on — so it's the
|
||||
// reliable model signal even when the user runs the rig at a non-default CI-V
|
||||
// address (a common trick to make CAT "just work" at 0x98).
|
||||
idAddr := b.rigAddr // fallback: the configured address if the ID read fails
|
||||
if err := b.write(civ.CmdReadID, civ.SubPTT); err == nil {
|
||||
if f, err := b.recv(icomReadTimeout, func(d civ.Decoded) bool {
|
||||
return d.Cmd == civ.CmdReadID && len(d.Data) >= 2 && d.Data[0] == 0x00
|
||||
}); err == nil {
|
||||
b.model = civ.ModelName(f.Data[1])
|
||||
idAddr = f.Data[1]
|
||||
}
|
||||
}
|
||||
// Dual-scope rigs (IC-7610/9700) prefix each waveform frame with a main/sub
|
||||
// selector byte; single-scope rigs (IC-7300…) do not.
|
||||
b.dualScope = b.rigAddr == 0x98 || b.rigAddr == 0xA2
|
||||
b.readDSP() // best-effort initial snapshot for the control tab
|
||||
// selector byte; single-scope rigs (IC-7300…) do not. Decide from the
|
||||
// IDENTIFIED model, NOT the configured address: an IC-7300 run at 0x98 must
|
||||
// still parse single-scope frames (this was the "scope blank on the 7300" bug).
|
||||
b.dualScope = idAddr == 0x98 || idAddr == 0xA2
|
||||
// Defer the DSP snapshot until the rig actually answers CI-V. Over the network
|
||||
// the rig may still be booting (or off) at Connect, so an immediate readDSP
|
||||
// would time out and leave every control at 0 / off with no retry. ReadState
|
||||
// loads it once on the first successful freq read instead (see dspLoaded).
|
||||
b.dspLoaded = false
|
||||
return nil
|
||||
}
|
||||
|
||||
@@ -191,11 +258,38 @@ func (b *IcomSerial) ReadState() (RigState, error) {
|
||||
|
||||
hz, err := b.readFreq()
|
||||
if err != nil {
|
||||
// The rig briefly stops answering CI-V while it switches band/VFO. Treat a
|
||||
// few consecutive misses as transient — keep the connection and report the
|
||||
// last known state — so a band change doesn't trigger a full disconnect +
|
||||
// 5 s reconnect (which showed the new frequency ~10 s late). Only after
|
||||
// several failures do we declare the rig lost so the Manager reconnects.
|
||||
// Network transport: if the control link is still alive, the rig is simply
|
||||
// silent — either in standby / powered OFF (the ON button is manual now), or
|
||||
// mid band-change. Stay CONNECTED and show last-known state (empty until the
|
||||
// rig is switched on) rather than tearing the whole UDP session down and
|
||||
// flapping every few seconds. The panel stays up so the ON button works.
|
||||
if at, ok := b.port.(aliveTransport); ok {
|
||||
if at.Alive() {
|
||||
b.readFails = 0
|
||||
s.FreqHz = b.curFreq // 0 until the rig is powered on and first read
|
||||
if b.curModeByte != 0 {
|
||||
s.Mode = civ.ModeToADIF(b.curModeByte, false)
|
||||
if s.Mode == "DATA" {
|
||||
s.Mode = b.digital
|
||||
}
|
||||
}
|
||||
// Keep the Icom panel visible (so ON/OFF are reachable) but show no
|
||||
// live meters while the rig is silent.
|
||||
b.dspMu.Lock()
|
||||
b.dsp.Available = true
|
||||
b.dsp.Model = b.model
|
||||
b.dsp.Transmitting = false
|
||||
b.dsp.SMeter, b.dsp.PowerMeter, b.dsp.SWRMeter = 0, 0, 0
|
||||
b.dspMu.Unlock()
|
||||
return s, nil
|
||||
}
|
||||
return RigState{}, err // control link dead → let the Manager reconnect
|
||||
}
|
||||
// USB (no liveness signal): the rig briefly stops answering CI-V while it
|
||||
// switches band/VFO. Tolerate a few consecutive misses as transient — keep
|
||||
// the connection and report last-known state — so a band change doesn't
|
||||
// trigger a full disconnect + 5 s reconnect. Only after several failures do
|
||||
// we declare the rig lost so the Manager reconnects.
|
||||
b.readFails++
|
||||
if b.readFails <= 6 && b.curFreq > 0 {
|
||||
s.FreqHz = b.curFreq
|
||||
@@ -268,6 +362,15 @@ func (b *IcomSerial) ReadState() (RigState, error) {
|
||||
b.dsp.PowerMeter = po
|
||||
b.dsp.SWRMeter = swr
|
||||
b.dspMu.Unlock()
|
||||
|
||||
// First time the rig answers (it's booted/responsive): load the full DSP
|
||||
// snapshot so the panel's antenna, sliders, RIT, notch, etc. reflect the rig
|
||||
// instead of sitting at their zero defaults. Runs once; ↻ Refresh re-reads on
|
||||
// demand, and a reconnect re-arms it (Connect clears dspLoaded).
|
||||
if !b.dspLoaded {
|
||||
b.readDSP()
|
||||
b.dspLoaded = true
|
||||
}
|
||||
return s, nil
|
||||
}
|
||||
|
||||
@@ -306,6 +409,30 @@ func (b *IcomSerial) SetPTT(on bool) error {
|
||||
return b.exec(civ.CmdPTT, civ.SubPTT, state)
|
||||
}
|
||||
|
||||
// SetPower turns the transceiver on or off (CI-V 0x18). Power-ON is prefixed with
|
||||
// a run of 0xFE — the wake preamble Icom rigs need to notice a command while
|
||||
// asleep (harmless when already awake); after it the rig boots for ~10-15 s.
|
||||
// Sent raw with no ack wait, since a rig waking up or shutting down won't
|
||||
// reliably answer. On the network transport the whole buffer becomes one data
|
||||
// packet, exactly as the Remote Utility sends it. Power is manual (the app never
|
||||
// wakes the rig on connect), so this is driven by the panel's ON/OFF button.
|
||||
func (b *IcomSerial) SetPower(on bool) error {
|
||||
if b.port == nil {
|
||||
return fmt.Errorf("icom: not connected")
|
||||
}
|
||||
if on {
|
||||
buf := make([]byte, 0, 32)
|
||||
for i := 0; i < 25; i++ {
|
||||
buf = append(buf, 0xFE)
|
||||
}
|
||||
buf = append(buf, 0xFE, 0xFE, b.rigAddr, civ.AddrController, civ.CmdPower, 0x01, 0xFD)
|
||||
_, err := b.port.Write(buf)
|
||||
return err
|
||||
}
|
||||
_, err := b.port.Write(civ.Frame(b.rigAddr, civ.AddrController, civ.CmdPower, 0x00))
|
||||
return err
|
||||
}
|
||||
|
||||
// ── helpers ───────────────────────────────────────────────────────────────
|
||||
|
||||
func (b *IcomSerial) write(payload ...byte) error {
|
||||
@@ -325,8 +452,14 @@ func (b *IcomSerial) write(payload ...byte) error {
|
||||
|
||||
// recv waits for a frame the reader routed to respCh that satisfies match, or
|
||||
// times out. The reader has already discarded echoes and split off scope frames,
|
||||
// so recv only ever sees candidate control replies.
|
||||
// so recv only ever sees candidate control replies. It also bails out at once if
|
||||
// Interrupt() fires (Stop) so an in-flight ReadState — which can be a dozen reads,
|
||||
// each up to icomReadTimeout when the rig is slow — doesn't make Stop/Save-&-Close
|
||||
// wait several seconds for the poll goroutine to finish.
|
||||
func (b *IcomSerial) recv(timeout time.Duration, match func(civ.Decoded) bool) (civ.Decoded, error) {
|
||||
b.dialMu.Lock()
|
||||
cancel := b.dialCancel
|
||||
b.dialMu.Unlock()
|
||||
deadline := time.After(timeout)
|
||||
for {
|
||||
select {
|
||||
@@ -334,6 +467,8 @@ func (b *IcomSerial) recv(timeout time.Duration, match func(civ.Decoded) bool) (
|
||||
if match(f) {
|
||||
return f, nil
|
||||
}
|
||||
case <-cancel:
|
||||
return civ.Decoded{}, fmt.Errorf("icom: interrupted")
|
||||
case <-deadline:
|
||||
return civ.Decoded{}, fmt.Errorf("icom: timeout waiting for response")
|
||||
}
|
||||
@@ -374,6 +509,37 @@ func (b *IcomSerial) reader(port civTransport, done chan struct{}) {
|
||||
}
|
||||
}
|
||||
|
||||
// netScopeFeeder decodes the raw scope (0x27) CI-V frames the network transport
|
||||
// delivers on its own channel and routes them into specCh — the same pipeline
|
||||
// the USB reader feeds — so scopeLoop assembles them identically. Exits when the
|
||||
// connection's reader does (done closes on Disconnect).
|
||||
func (b *IcomSerial) netScopeFeeder(ch <-chan []byte, done chan struct{}) {
|
||||
var buf []byte
|
||||
for {
|
||||
select {
|
||||
case <-done:
|
||||
return
|
||||
case raw, ok := <-ch:
|
||||
if !ok {
|
||||
return
|
||||
}
|
||||
buf = append(buf, raw...)
|
||||
frames, consumed := civ.Scan(buf)
|
||||
if consumed > 0 {
|
||||
buf = append(buf[:0], buf[consumed:]...)
|
||||
}
|
||||
for _, f := range frames {
|
||||
if f.From == b.rigAddr && f.Cmd == civ.CmdScope {
|
||||
b.route(b.specCh, f)
|
||||
}
|
||||
}
|
||||
if len(buf) > 1<<16 { // a frame that never completes — don't grow forever
|
||||
buf = buf[:0]
|
||||
}
|
||||
}
|
||||
}
|
||||
}
|
||||
|
||||
// route delivers a frame without ever blocking the reader: if the channel is
|
||||
// full it drops the oldest entry to make room for the newest.
|
||||
func (b *IcomSerial) route(ch chan civ.Decoded, f civ.Decoded) {
|
||||
@@ -432,7 +598,7 @@ func (b *IcomSerial) scopeLoop(spec chan civ.Decoded, done chan struct{}) {
|
||||
}
|
||||
continue
|
||||
}
|
||||
if rawN < 4 {
|
||||
if rawN < 24 {
|
||||
rawN++
|
||||
applog.Printf("icom scope raw #%d: len=%d data=[% X]", rawN, len(f.Data), f.Data)
|
||||
}
|
||||
@@ -451,6 +617,46 @@ func (b *IcomSerial) scopeLoop(spec chan civ.Decoded, done chan struct{}) {
|
||||
if seq == 0 || tot == 0 {
|
||||
continue
|
||||
}
|
||||
if tot == 1 {
|
||||
// Network single-frame sweep: the WHOLE sweep is in one frame —
|
||||
// region = [info][low 5-BCD][high 5-BCD][amplitude bytes…]. Parse the
|
||||
// edges and take the rest as the trace, then publish immediately.
|
||||
// (USB splits this across 21 frames; the net rig sends it as one.)
|
||||
if len(region) >= 11 {
|
||||
// Net single-frame layout (IC-7610): region = [info 1B][freq1 5-BCD]
|
||||
// [freq2 5-BCD][amplitude bytes]. The two freq fields depend on the
|
||||
// scope mode: FIXED sends [low-edge][high-edge] (both absolute), CENTRE
|
||||
// sends [centre][span]. Tell them apart by magnitude — a second value
|
||||
// BIGGER than the first is a real high edge; a small one is a span
|
||||
// (e.g. 14.200 MHz + 100 kHz → centred 14.150-14.250; 21.000 +
|
||||
// 21.070 → fixed 21.000-21.070). Guessing wrong here gave the absurd
|
||||
// 21.000-42.070 span (low + a 21 MHz "span").
|
||||
v1 := civ.BCDToFreq(region[1:6])
|
||||
v2 := civ.BCDToFreq(region[6:11])
|
||||
var low, high int64
|
||||
if v2 > v1 {
|
||||
low, high = v1, v2 // absolute low/high edges (fixed edge set)
|
||||
} else {
|
||||
low, high = v1-v2/2, v1+v2/2 // centre + span (centre-on-VFO)
|
||||
}
|
||||
amp := append([]byte(nil), region[11:]...)
|
||||
b.scopeMu.Lock()
|
||||
b.scopeLow, b.scopeHigh = low, high
|
||||
b.scopeAmp = amp
|
||||
b.scopeSeq++
|
||||
firstLog := !b.scopeSeen
|
||||
b.scopeSeen = true
|
||||
b.scopeMu.Unlock()
|
||||
if firstLog {
|
||||
head := region
|
||||
if len(head) > 16 {
|
||||
head = head[:16]
|
||||
}
|
||||
applog.Printf("icom scope (net 1-frame): head=[% X] v1=%d v2=%d → %d..%d Hz points=%d", head, v1, v2, low, high, len(amp))
|
||||
}
|
||||
}
|
||||
continue
|
||||
}
|
||||
if seq == 1 { // header frame — begins a new sweep, no waveform data
|
||||
regions = make(map[byte][]byte)
|
||||
total = tot
|
||||
@@ -498,6 +704,13 @@ func (b *IcomSerial) assembleSweep(regions map[byte][]byte, total byte) {
|
||||
// and 0x27 0x11 turns the waveform data OUTPUT over CI-V on. While on, the reader
|
||||
// routes every 0x27 frame to scopeLoop.
|
||||
func (b *IcomSerial) SetScope(on bool) error {
|
||||
if on {
|
||||
// Context for the scope-diagnostic log: which rig + whether we expect the
|
||||
// dual-scope (main/sub) frame layout. If the IC-7300 (single scope) streams
|
||||
// but nothing shows, compare its `icom scope raw` frames against this.
|
||||
applog.Printf("icom scope: enable on rig=%q addr=0x%02X dualScope=%v (expect %s frame layout)",
|
||||
b.model, b.rigAddr, b.dualScope, map[bool]string{true: "27 00 [MS] [seq] [total] …", false: "27 00 [seq] [total] …"}[b.dualScope])
|
||||
}
|
||||
// Some firmwares don't ack 0x27 sets; a timeout here isn't fatal, so log and
|
||||
// continue rather than abort the second command.
|
||||
if err := b.exec(civ.CmdScope, civ.SubScopeOnOff, boolByte(on)); err != nil {
|
||||
@@ -552,6 +765,58 @@ func (b *IcomSerial) SetScopeMode(fixed bool) error {
|
||||
return nil
|
||||
}
|
||||
|
||||
// icScopeRanges maps a frequency to the IC-7610's spectrum edge-frequency range
|
||||
// id (from Hamlib's ic7610 caps). SetScopeEdges needs it to address the right
|
||||
// fixed-edge memory. Each range spans a chunk of the tuning range.
|
||||
var icScopeRanges = []struct {
|
||||
lo, hi int64
|
||||
id byte
|
||||
}{
|
||||
{30_000, 1_600_000, 1}, {1_600_000, 2_000_000, 2}, {2_000_000, 6_000_000, 3},
|
||||
{6_000_000, 8_000_000, 4}, {8_000_000, 11_000_000, 5}, {11_000_000, 15_000_000, 6},
|
||||
{15_000_000, 20_000_000, 7}, {20_000_000, 22_000_000, 8}, {22_000_000, 26_000_000, 9},
|
||||
{26_000_000, 30_000_000, 10}, {30_000_000, 45_000_000, 11}, {45_000_000, 60_000_000, 12},
|
||||
}
|
||||
|
||||
// scopeRangeBCD returns the range id (as a 1-byte BCD) for a frequency, or 0 if
|
||||
// out of range.
|
||||
func scopeRangeBCD(freq int64) byte {
|
||||
for _, r := range icScopeRanges {
|
||||
if freq >= r.lo && freq < r.hi {
|
||||
return byte(r.id/10)<<4 | byte(r.id%10) // 1-byte BCD (11 → 0x11)
|
||||
}
|
||||
}
|
||||
return 0
|
||||
}
|
||||
|
||||
// SetScopeEdges points the FIXED-mode scope at [low..high] by writing them into
|
||||
// the rig's fixed-edge memory (edge set 1) and making that set active. This is
|
||||
// how the panel's "centre on VFO" and pan ◀/▶ work: they just compute VFO±50 kHz
|
||||
// (and shift it) and set the edges — no dependence on the waveform decode. CI-V:
|
||||
// 0x27 0x14 fixed, 0x27 0x16 set 1 active, 0x27 0x1e [range][set][low][high].
|
||||
func (b *IcomSerial) SetScopeEdges(low, high int64) error {
|
||||
if low <= 0 || high <= low {
|
||||
return fmt.Errorf("icom scope: bad edges %d..%d", low, high)
|
||||
}
|
||||
rangeID := scopeRangeBCD((low + high) / 2)
|
||||
if rangeID == 0 {
|
||||
return fmt.Errorf("icom scope: freq out of range")
|
||||
}
|
||||
if b.dualScope {
|
||||
_ = b.exec(civ.CmdScope, civ.SubScopeMode, 0x00, 0x01) // fixed mode (main)
|
||||
_ = b.exec(civ.CmdScope, civ.SubScopeEdge, 0x00, 0x01) // activate edge set 1
|
||||
} else {
|
||||
_ = b.exec(civ.CmdScope, civ.SubScopeMode, 0x01)
|
||||
_ = b.exec(civ.CmdScope, civ.SubScopeEdge, 0x01)
|
||||
}
|
||||
payload := append([]byte{civ.CmdScope, civ.SubScopeFixEdge, rangeID, 0x01}, civ.FreqToBCD(low)...)
|
||||
payload = append(payload, civ.FreqToBCD(high)...)
|
||||
b.scopeMu.Lock()
|
||||
b.scopeFixed = true
|
||||
b.scopeMu.Unlock()
|
||||
return b.exec(payload...)
|
||||
}
|
||||
|
||||
// SetRIT sets the RIT/ΔTX offset (signed Hz, ±9999).
|
||||
func (b *IcomSerial) SetRIT(hz int) error {
|
||||
if err := b.exec(append([]byte{civ.CmdRIT, civ.SubRITFreq}, civ.RITToBCD(hz)...)...); err != nil {
|
||||
@@ -916,6 +1181,9 @@ func (b *IcomSerial) readDSP() {
|
||||
if v, ok := b.readSwitch(civ.SubSwANF); ok {
|
||||
st.ANF = v != 0
|
||||
}
|
||||
if v, ok := b.readSwitch(civ.SubSwAPF); ok {
|
||||
st.APF = v != 0
|
||||
}
|
||||
if v, ok := b.readSwitch(civ.SubSwAGC); ok {
|
||||
st.AGC = agcName(v)
|
||||
}
|
||||
@@ -935,6 +1203,46 @@ func (b *IcomSerial) readDSP() {
|
||||
if v, ok := b.readSwitch(civ.SubSwBreakIn); ok {
|
||||
st.BreakIn = int(v)
|
||||
}
|
||||
// Antenna + filter fine controls + TX extras.
|
||||
if v, ok := b.readAnt(); ok {
|
||||
st.Antenna = v
|
||||
}
|
||||
if v, ok := b.readLevel(civ.SubLevelPBTIn); ok {
|
||||
st.PBTInner = from255(v)
|
||||
}
|
||||
if v, ok := b.readLevel(civ.SubLevelPBTOut); ok {
|
||||
st.PBTOuter = from255(v)
|
||||
}
|
||||
if v, ok := b.readSwitch(civ.SubSwMN); ok {
|
||||
st.ManualNotch = v != 0
|
||||
}
|
||||
if v, ok := b.readLevel(civ.SubLevelNotch); ok {
|
||||
st.NotchPos = from255(v)
|
||||
}
|
||||
if v, ok := b.readLevel(civ.SubLevelSQL); ok {
|
||||
st.Squelch = from255(v)
|
||||
}
|
||||
if v, ok := b.readSwitch(civ.SubSwComp); ok {
|
||||
st.Comp = v != 0
|
||||
}
|
||||
if v, ok := b.readLevel(civ.SubLevelComp); ok {
|
||||
st.CompLevel = from255(v)
|
||||
}
|
||||
if v, ok := b.readSwitch(civ.SubSwMon); ok {
|
||||
st.Monitor = v != 0
|
||||
}
|
||||
if v, ok := b.readLevel(civ.SubLevelMon); ok {
|
||||
st.MonLevel = from255(v)
|
||||
}
|
||||
if v, ok := b.readSwitch(civ.SubSwVOX); ok {
|
||||
st.VOX = v != 0
|
||||
}
|
||||
if v, ok := b.readLevel(civ.SubLevelVOXGain); ok {
|
||||
st.VOXGain = from255(v)
|
||||
}
|
||||
if v, ok := b.readLevel(civ.SubLevelAntiVOX); ok {
|
||||
st.AntiVOX = from255(v)
|
||||
}
|
||||
|
||||
b.dspMu.Lock()
|
||||
b.dsp = st
|
||||
@@ -982,6 +1290,22 @@ func (b *IcomSerial) readAtt() (int, bool) {
|
||||
return civ.BCDToByte(f.Data[0]), true
|
||||
}
|
||||
|
||||
func (b *IcomSerial) readAnt() (int, bool) {
|
||||
if err := b.write(civ.CmdAnt); err != nil {
|
||||
return 0, false
|
||||
}
|
||||
f, err := b.recv(icomDSPTimeout, func(d civ.Decoded) bool {
|
||||
return d.Cmd == civ.CmdAnt && len(d.Data) >= 1
|
||||
})
|
||||
if err != nil {
|
||||
return 0, false
|
||||
}
|
||||
if f.Data[0] == 0x01 {
|
||||
return 2, true
|
||||
}
|
||||
return 1, true
|
||||
}
|
||||
|
||||
func (b *IcomSerial) readModeFilter() (mode, filter byte, ok bool) {
|
||||
if err := b.write(civ.CmdReadMode); err != nil {
|
||||
return 0, 0, false
|
||||
@@ -1051,6 +1375,14 @@ func (b *IcomSerial) SetANF(on bool) error {
|
||||
return nil
|
||||
}
|
||||
|
||||
func (b *IcomSerial) SetAPF(on bool) error {
|
||||
if err := b.exec(civ.CmdSwitch, civ.SubSwAPF, boolByte(on)); err != nil {
|
||||
return err
|
||||
}
|
||||
b.setCache(func(s *IcomTXState) { s.APF = on })
|
||||
return nil
|
||||
}
|
||||
|
||||
func (b *IcomSerial) SetAGC(name string) error {
|
||||
v := agcValue(name)
|
||||
if v == 0 {
|
||||
@@ -1116,6 +1448,24 @@ func (b *IcomSerial) SetMicGain(p int) error {
|
||||
}
|
||||
|
||||
func (b *IcomSerial) SetIcomSplit(on bool) error {
|
||||
if on {
|
||||
// Enable split with the usual "work him up" TX offset: +1 kHz on CW,
|
||||
// +5 kHz otherwise (SSB). Set the unselected (TX) VFO to RX+offset first,
|
||||
// then turn split on. 0x25 0x01 + BCD sets the unselected VFO's frequency.
|
||||
rx := b.curFreq
|
||||
if rx <= 0 {
|
||||
if hz, err := b.readFreq(); err == nil {
|
||||
rx = hz
|
||||
}
|
||||
}
|
||||
if rx > 0 {
|
||||
offset := int64(5000)
|
||||
if b.curModeByte == civ.ModeCW || b.curModeByte == civ.ModeCWR {
|
||||
offset = 1000
|
||||
}
|
||||
_ = b.exec(append([]byte{civ.CmdVfoFreq, civ.SubVfoUnselected}, civ.FreqToBCD(rx+offset)...)...)
|
||||
}
|
||||
}
|
||||
if err := b.exec(civ.CmdSplit, boolByte(on)); err != nil {
|
||||
return err
|
||||
}
|
||||
@@ -1123,6 +1473,126 @@ func (b *IcomSerial) SetIcomSplit(on bool) error {
|
||||
return nil
|
||||
}
|
||||
|
||||
// ── Antenna ────────────────────────────────────────────────────────────────
|
||||
|
||||
func (b *IcomSerial) SetAntenna(n int) error {
|
||||
sub := byte(0x00) // ANT1
|
||||
if n == 2 {
|
||||
sub = 0x01 // ANT2
|
||||
}
|
||||
if err := b.exec(civ.CmdAnt, sub); err != nil {
|
||||
return err
|
||||
}
|
||||
b.setCache(func(s *IcomTXState) {
|
||||
if n == 2 {
|
||||
s.Antenna = 2
|
||||
} else {
|
||||
s.Antenna = 1
|
||||
}
|
||||
})
|
||||
return nil
|
||||
}
|
||||
|
||||
// ── Filter: Twin PBT + manual notch ────────────────────────────────────────
|
||||
|
||||
func (b *IcomSerial) SetPBTInner(p int) error {
|
||||
if err := b.exec(append([]byte{civ.CmdLevel, civ.SubLevelPBTIn}, civ.LevelToBCD(to255(p))...)...); err != nil {
|
||||
return err
|
||||
}
|
||||
b.setCache(func(s *IcomTXState) { s.PBTInner = clampPct(p) })
|
||||
return nil
|
||||
}
|
||||
|
||||
func (b *IcomSerial) SetPBTOuter(p int) error {
|
||||
if err := b.exec(append([]byte{civ.CmdLevel, civ.SubLevelPBTOut}, civ.LevelToBCD(to255(p))...)...); err != nil {
|
||||
return err
|
||||
}
|
||||
b.setCache(func(s *IcomTXState) { s.PBTOuter = clampPct(p) })
|
||||
return nil
|
||||
}
|
||||
|
||||
func (b *IcomSerial) SetManualNotch(on bool) error {
|
||||
if err := b.exec(civ.CmdSwitch, civ.SubSwMN, boolByte(on)); err != nil {
|
||||
return err
|
||||
}
|
||||
b.setCache(func(s *IcomTXState) { s.ManualNotch = on })
|
||||
return nil
|
||||
}
|
||||
|
||||
func (b *IcomSerial) SetNotchPos(p int) error {
|
||||
if err := b.exec(append([]byte{civ.CmdLevel, civ.SubLevelNotch}, civ.LevelToBCD(to255(p))...)...); err != nil {
|
||||
return err
|
||||
}
|
||||
b.setCache(func(s *IcomTXState) { s.NotchPos = clampPct(p) })
|
||||
return nil
|
||||
}
|
||||
|
||||
// ── TX extras: squelch / compressor / monitor / VOX ────────────────────────
|
||||
|
||||
func (b *IcomSerial) SetSquelch(p int) error {
|
||||
if err := b.exec(append([]byte{civ.CmdLevel, civ.SubLevelSQL}, civ.LevelToBCD(to255(p))...)...); err != nil {
|
||||
return err
|
||||
}
|
||||
b.setCache(func(s *IcomTXState) { s.Squelch = clampPct(p) })
|
||||
return nil
|
||||
}
|
||||
|
||||
func (b *IcomSerial) SetComp(on bool) error {
|
||||
if err := b.exec(civ.CmdSwitch, civ.SubSwComp, boolByte(on)); err != nil {
|
||||
return err
|
||||
}
|
||||
b.setCache(func(s *IcomTXState) { s.Comp = on })
|
||||
return nil
|
||||
}
|
||||
|
||||
func (b *IcomSerial) SetCompLevel(p int) error {
|
||||
if err := b.exec(append([]byte{civ.CmdLevel, civ.SubLevelComp}, civ.LevelToBCD(to255(p))...)...); err != nil {
|
||||
return err
|
||||
}
|
||||
b.setCache(func(s *IcomTXState) { s.CompLevel = clampPct(p) })
|
||||
return nil
|
||||
}
|
||||
|
||||
func (b *IcomSerial) SetMonitor(on bool) error {
|
||||
if err := b.exec(civ.CmdSwitch, civ.SubSwMon, boolByte(on)); err != nil {
|
||||
return err
|
||||
}
|
||||
b.setCache(func(s *IcomTXState) { s.Monitor = on })
|
||||
return nil
|
||||
}
|
||||
|
||||
func (b *IcomSerial) SetMonLevel(p int) error {
|
||||
if err := b.exec(append([]byte{civ.CmdLevel, civ.SubLevelMon}, civ.LevelToBCD(to255(p))...)...); err != nil {
|
||||
return err
|
||||
}
|
||||
b.setCache(func(s *IcomTXState) { s.MonLevel = clampPct(p) })
|
||||
return nil
|
||||
}
|
||||
|
||||
func (b *IcomSerial) SetVOX(on bool) error {
|
||||
if err := b.exec(civ.CmdSwitch, civ.SubSwVOX, boolByte(on)); err != nil {
|
||||
return err
|
||||
}
|
||||
b.setCache(func(s *IcomTXState) { s.VOX = on })
|
||||
return nil
|
||||
}
|
||||
|
||||
func (b *IcomSerial) SetVOXGain(p int) error {
|
||||
if err := b.exec(append([]byte{civ.CmdLevel, civ.SubLevelVOXGain}, civ.LevelToBCD(to255(p))...)...); err != nil {
|
||||
return err
|
||||
}
|
||||
b.setCache(func(s *IcomTXState) { s.VOXGain = clampPct(p) })
|
||||
return nil
|
||||
}
|
||||
|
||||
func (b *IcomSerial) SetAntiVOX(p int) error {
|
||||
if err := b.exec(append([]byte{civ.CmdLevel, civ.SubLevelAntiVOX}, civ.LevelToBCD(to255(p))...)...); err != nil {
|
||||
return err
|
||||
}
|
||||
b.setCache(func(s *IcomTXState) { s.AntiVOX = clampPct(p) })
|
||||
return nil
|
||||
}
|
||||
|
||||
// TuneATU triggers a one-shot antenna-tuner tune (CI-V 0x1C 0x01 0x02).
|
||||
func (b *IcomSerial) TuneATU() error {
|
||||
return b.exec(civ.CmdATU, civ.SubATU, 0x02)
|
||||
|
||||
@@ -414,6 +414,16 @@ func (o *OmniRig) SetPTT(on bool) error {
|
||||
debugLog.Printf("OmniRig.SetPTT error: %v", err)
|
||||
return fmt.Errorf("set Tx=%s: %w", name, err)
|
||||
}
|
||||
// Read the Tx param straight back. OmniRig is async — this may still show the
|
||||
// previous value for a poll cycle — but if a key/unkey NEVER changes it, the
|
||||
// write was coalesced or the rig isn't honouring PM_TX/PM_RX (wrong .ini).
|
||||
if v, err := oleutil.GetProperty(o.rig, "Tx"); err == nil {
|
||||
txState := "PM_RX"
|
||||
if v.Val&pmTX != 0 {
|
||||
txState = "PM_TX"
|
||||
}
|
||||
debugLog.Printf("OmniRig.SetPTT: Tx readback = 0x%X (%s)", v.Val, txState)
|
||||
}
|
||||
return nil
|
||||
}
|
||||
|
||||
|
||||
+32
-4
@@ -3,6 +3,7 @@
|
||||
package cat
|
||||
|
||||
import (
|
||||
"context"
|
||||
"fmt"
|
||||
"net"
|
||||
"strconv"
|
||||
@@ -27,9 +28,10 @@ type TCI struct {
|
||||
digitalDefault string // surfaced when the rig reports a digital mode (FT8/…)
|
||||
spotsEnabled bool // mirror cluster spots onto the TCI panorama
|
||||
|
||||
mu sync.Mutex // guards conn + writes + state
|
||||
conn *websocket.Conn
|
||||
ready bool
|
||||
mu sync.Mutex // guards conn + writes + state
|
||||
conn *websocket.Conn
|
||||
dialCancel context.CancelFunc // cancels an in-flight Connect dial (Interrupt/Stop)
|
||||
ready bool
|
||||
|
||||
// Cached state pushed by the radio.
|
||||
device string
|
||||
@@ -70,8 +72,18 @@ func (t *TCI) Connect() error {
|
||||
return fmt.Errorf("tci: no host configured")
|
||||
}
|
||||
url := fmt.Sprintf("ws://%s", net.JoinHostPort(host, strconv.Itoa(port)))
|
||||
// Cancellable dial so Interrupt() (Stop / Settings "Save & Close") aborts it at
|
||||
// once instead of waiting out a dead server's 5 s handshake timeout.
|
||||
ctx, cancel := context.WithTimeout(context.Background(), 5*time.Second)
|
||||
t.mu.Lock()
|
||||
t.dialCancel = cancel
|
||||
t.mu.Unlock()
|
||||
dialer := websocket.Dialer{HandshakeTimeout: 5 * time.Second}
|
||||
conn, _, err := dialer.Dial(url, nil)
|
||||
conn, _, err := dialer.DialContext(ctx, url, nil)
|
||||
cancel()
|
||||
t.mu.Lock()
|
||||
t.dialCancel = nil
|
||||
t.mu.Unlock()
|
||||
if err != nil {
|
||||
return fmt.Errorf("tci: connect %s: %w", url, err)
|
||||
}
|
||||
@@ -122,6 +134,22 @@ func (t *TCI) Disconnect() {
|
||||
}
|
||||
}
|
||||
|
||||
// Interrupt aborts an in-flight Connect dial so Stop()/Start() don't block on a
|
||||
// dead server's handshake timeout. Satisfies the Manager's interruptible
|
||||
// interface. Safe from another goroutine; a no-op when not dialing.
|
||||
func (t *TCI) Interrupt() {
|
||||
t.mu.Lock()
|
||||
cancel := t.dialCancel
|
||||
c := t.conn
|
||||
t.mu.Unlock()
|
||||
if cancel != nil {
|
||||
cancel()
|
||||
}
|
||||
if c != nil {
|
||||
_ = c.Close()
|
||||
}
|
||||
}
|
||||
|
||||
// ReadState returns the cached state pushed by the radio.
|
||||
func (t *TCI) ReadState() (RigState, error) {
|
||||
t.mu.Lock()
|
||||
|
||||
@@ -202,6 +202,23 @@ func (db *DB) Resolve(call string, date time.Time) (Exception, bool) {
|
||||
return Exception{}, false
|
||||
}
|
||||
|
||||
// HasException reports whether the callsign has ANY full-call exception (at any
|
||||
// date). Used to tell a genuinely date-sensitive call (G1T: Scotland only from
|
||||
// 2024) — where cty.dat's date-blind exact-call override is wrong for older
|
||||
// QSOs — from an ordinary call cty.dat handles fine.
|
||||
func (db *DB) HasException(call string) bool {
|
||||
if db == nil {
|
||||
return false
|
||||
}
|
||||
c := strings.ToUpper(strings.TrimSpace(call))
|
||||
for _, key := range candidates(c) {
|
||||
if len(db.exceptions[key]) > 0 {
|
||||
return true
|
||||
}
|
||||
}
|
||||
return false
|
||||
}
|
||||
|
||||
// candidates yields the call and a version with one trailing affix removed.
|
||||
func candidates(c string) []string {
|
||||
out := []string{c}
|
||||
|
||||
@@ -0,0 +1,50 @@
|
||||
package clublog
|
||||
|
||||
import (
|
||||
"testing"
|
||||
"time"
|
||||
)
|
||||
|
||||
func d(s string) time.Time {
|
||||
t, _ := time.Parse("2006-01-02", s)
|
||||
return t
|
||||
}
|
||||
|
||||
// G1T is a contest call: Scotland ONLY from 2024-02-21; before that it's England
|
||||
// by prefix. cty.dat's date-blind "=G1T → Scotland" override is wrong for a 2012
|
||||
// QSO — the date-aware ClubLog cascade must give England then, Scotland now.
|
||||
func TestG1TDatedException(t *testing.T) {
|
||||
db := &DB{
|
||||
exceptions: map[string][]Exception{
|
||||
"G1T": {{Call: "G1T", Entity: "Scotland", ADIF: 279, Start: d("2024-02-21")}},
|
||||
},
|
||||
prefixes: map[string][]Exception{
|
||||
"G": {{Entity: "England", ADIF: 223}},
|
||||
},
|
||||
}
|
||||
|
||||
// 2012 QSO: exception doesn't cover it, but the call HAS an exception →
|
||||
// caller should use the prefix (England).
|
||||
if _, ok := db.Resolve("G1T", d("2012-07-29")); ok {
|
||||
t.Fatalf("2012: exception should NOT cover a pre-2024 date")
|
||||
}
|
||||
if !db.HasException("G1T") {
|
||||
t.Fatalf("HasException(G1T) should be true")
|
||||
}
|
||||
pe, pok := db.ResolvePrefix("G1T", d("2012-07-29"))
|
||||
if !pok || pe.Entity != "England" {
|
||||
t.Fatalf("2012 prefix: got %q ok=%v, want England", pe.Entity, pok)
|
||||
}
|
||||
|
||||
// 2025 QSO: the exception covers it → Scotland.
|
||||
e, ok := db.Resolve("G1T", d("2025-01-01"))
|
||||
if !ok || e.Entity != "Scotland" {
|
||||
t.Fatalf("2025: got %q ok=%v, want Scotland", e.Entity, ok)
|
||||
}
|
||||
|
||||
// An ordinary call with no exception → HasException false (caller leaves it
|
||||
// to cty.dat).
|
||||
if db.HasException("G4ABC") {
|
||||
t.Fatalf("HasException(G4ABC) should be false")
|
||||
}
|
||||
}
|
||||
@@ -50,6 +50,17 @@ func (m *Manager) Info() (date string, count int) {
|
||||
return m.db.Date(), m.db.Count()
|
||||
}
|
||||
|
||||
// NeedsRefresh reports whether the cached country file is missing or older than
|
||||
// maxAge — so the caller re-downloads it to pick up newly-added date-ranged
|
||||
// exceptions (e.g. an event call's fresh SARDINIA period).
|
||||
func (m *Manager) NeedsRefresh(maxAge time.Duration) bool {
|
||||
fi, err := os.Stat(m.Path())
|
||||
if err != nil {
|
||||
return true // missing
|
||||
}
|
||||
return time.Since(fi.ModTime()) > maxAge
|
||||
}
|
||||
|
||||
// EnsureLoaded loads the cached file into memory if present. Does NOT download.
|
||||
func (m *Manager) EnsureLoaded() error {
|
||||
if m.Loaded() {
|
||||
@@ -125,3 +136,19 @@ func (m *Manager) Resolve(call string, date time.Time) (Exception, bool) {
|
||||
}
|
||||
return db.Resolve(call, date)
|
||||
}
|
||||
|
||||
// ResolvePrefix resolves a call by ClubLog's date-ranged PREFIX table.
|
||||
func (m *Manager) ResolvePrefix(call string, date time.Time) (Exception, bool) {
|
||||
m.mu.RLock()
|
||||
db := m.db
|
||||
m.mu.RUnlock()
|
||||
return db.ResolvePrefix(call, date)
|
||||
}
|
||||
|
||||
// HasException reports whether the call has any full-call exception (any date).
|
||||
func (m *Manager) HasException(call string) bool {
|
||||
m.mu.RLock()
|
||||
db := m.db
|
||||
m.mu.RUnlock()
|
||||
return db.HasException(call)
|
||||
}
|
||||
|
||||
+19
-10
@@ -303,11 +303,12 @@ func normalizeCallsign(s string) string {
|
||||
if p == "" {
|
||||
continue
|
||||
}
|
||||
// A TRAILING /MM (maritime) or /AM (aeronautical) mobile is stripped and
|
||||
// the operator's home entity is kept, so the contact still resolves to a
|
||||
// country in the log (e.g. YB1SCY/AM → Indonesia). A LEADING "MM" is the
|
||||
// Scotland operating prefix (MM/F4NIE) and must NOT be stripped.
|
||||
if i > 0 && (p == "MM" || p == "AM") {
|
||||
// A TRAILING /MM (maritime) or /AM (aeronautical) mobile, or /B (beacon), is
|
||||
// stripped and the operator's home entity is kept, so the contact still
|
||||
// resolves to a country in the log (e.g. YB1SCY/AM → Indonesia, 4U1UN/B →
|
||||
// 4U1UN → United Nations HQ). A LEADING "MM"/"B" is a PREFIX (MM = Scotland,
|
||||
// B = China: B/F4NIE) and must NOT be stripped.
|
||||
if i > 0 && (p == "MM" || p == "AM" || p == "B") {
|
||||
continue
|
||||
}
|
||||
if suffixModifiers[p] {
|
||||
@@ -338,17 +339,25 @@ func normalizeCallsign(s string) string {
|
||||
// which can change the DXCC entity (HD5MW/8 → HD8MW → Galápagos, not
|
||||
// Ecuador). This is the same class of rule as KG4 and /MM.
|
||||
if areaDigit != 0 {
|
||||
main = replaceFirstDigit(main, areaDigit)
|
||||
main = replaceAreaDigit(main, areaDigit)
|
||||
}
|
||||
return main
|
||||
}
|
||||
|
||||
// replaceFirstDigit substitutes the first 0-9 digit of a call with d (used to
|
||||
// apply a "/N" call-area change). Returns the call unchanged if it has no digit.
|
||||
func replaceFirstDigit(call string, d byte) string {
|
||||
// replaceAreaDigit substitutes the CALL-AREA digit of a call with d (used to
|
||||
// apply a "/N" call-area change). The area digit is the first digit that comes
|
||||
// AFTER a prefix letter — NOT a leading digit that is part of a digit-first
|
||||
// prefix (7X, 3A, 4X, 9A, 2E…). So 7X2ARA/4 → 7X4ARA (still Algeria, area 4),
|
||||
// NOT 4X2ARA (which is Israel — the old first-digit bug). Returns the call
|
||||
// unchanged if it has no such digit.
|
||||
func replaceAreaDigit(call string, d byte) string {
|
||||
b := []byte(call)
|
||||
seenLetter := false
|
||||
for i := range b {
|
||||
if b[i] >= '0' && b[i] <= '9' {
|
||||
switch {
|
||||
case b[i] >= 'A' && b[i] <= 'Z':
|
||||
seenLetter = true
|
||||
case b[i] >= '0' && b[i] <= '9' && seenLetter:
|
||||
b[i] = d
|
||||
return string(b)
|
||||
}
|
||||
|
||||
@@ -219,11 +219,16 @@ func TestNormalize(t *testing.T) {
|
||||
"F4BPO/M": "F4BPO", // plain mobile keeps the home entity
|
||||
"F4BPO/5": "F5BPO", // "/5" re-homes to call area 5
|
||||
"HD5MW/8": "HD8MW", // "/8" → Galápagos call area (HD8)
|
||||
"7X2ARA/4": "7X4ARA", // "/4" changes the AREA digit (2→4), NOT the 7 of the 7X prefix (was wrongly 4X2ARA = Israel)
|
||||
"3A2ABC/6": "3A6ABC", // digit-first prefix 3A: area digit is the 2, not the 3
|
||||
"4X1AB/2": "4X2AB", // 4X (Israel) area 1→2, keep the leading 4
|
||||
"DL/F4BPO": "DL",
|
||||
"MM/KA9P": "MM", // leading MM = Scotland operating prefix
|
||||
"MM/LY3X/P": "MM",
|
||||
"F4BPO/W6": "W6",
|
||||
"VK9/F4BPO": "VK9",
|
||||
"4U1UN/B": "4U1UN", // trailing /B = beacon → strip, keep the base call
|
||||
"B/F4BPO": "B", // leading B = China operating prefix, NOT a beacon
|
||||
}
|
||||
for in, want := range cases {
|
||||
if got := normalizeCallsign(in); got != want {
|
||||
|
||||
@@ -53,6 +53,155 @@ func eqslPost(ctx context.Context, client *http.Client, user, pswd, adif string)
|
||||
return msg, nil
|
||||
}
|
||||
|
||||
// eQSL Inbox download endpoint + base host. DownloadInBox.cfm builds an ADIF of
|
||||
// the account's *received* eQSLs (confirmations) and returns an HTML page that
|
||||
// links to the generated .adi file; we then fetch that file (two-step API).
|
||||
const (
|
||||
eqslDownloadInboxURL = "https://www.eQSL.cc/qslcard/DownloadInBox.cfm"
|
||||
eqslBaseURL = "https://www.eQSL.cc"
|
||||
)
|
||||
|
||||
// eqslAdiHrefRe pulls the generated .adi link out of the DownloadInBox reply.
|
||||
// eQSL serves old HTML 4.01 with UPPERCASE tags and often UNQUOTED attributes,
|
||||
// e.g. `<A HREF=/downloadedFiles/xxxx.adi>` or `<a href="…/xxxx.adi">`, and the
|
||||
// path may be root-relative or a bare filename. Match case-insensitively with
|
||||
// optional quoting; resolve to an absolute URL afterwards.
|
||||
var eqslAdiHrefRe = regexp.MustCompile(`(?i)href\s*=\s*["']?([^"'>\s]+\.adi)`)
|
||||
|
||||
// DownloadEQSLConfirmations fetches the account's Inbox (received eQSLs =
|
||||
// confirmations) as ADIF text. since is "YYYY-MM-DD" (only QSLs received since
|
||||
// then, incremental "last download"); qthNick comes from the config when the
|
||||
// account has several QTH profiles.
|
||||
func DownloadEQSLConfirmations(ctx context.Context, client *http.Client, cfg ServiceConfig, since string) (string, error) {
|
||||
user := strings.ToUpper(strings.TrimSpace(cfg.Username))
|
||||
if user == "" || strings.TrimSpace(cfg.Password) == "" {
|
||||
return "", fmt.Errorf("eqsl: username/password not set")
|
||||
}
|
||||
if client == nil {
|
||||
client = &http.Client{Timeout: 120 * time.Second}
|
||||
}
|
||||
q := url.Values{}
|
||||
q.Set("UserName", user)
|
||||
q.Set("Password", cfg.Password)
|
||||
if nick := strings.TrimSpace(cfg.QTHNickname); nick != "" {
|
||||
q.Set("QTHNickname", nick)
|
||||
}
|
||||
if s := eqslRcvdSince(since); s != "" {
|
||||
q.Set("RcvdSince", s) // eQSL wants YYYYMMDDHHMM
|
||||
}
|
||||
|
||||
// Step 1: ask eQSL to build the inbox ADIF; the reply is HTML linking to it.
|
||||
page, err := eqslGet(ctx, client, eqslDownloadInboxURL+"?"+q.Encode())
|
||||
if err != nil {
|
||||
return "", err
|
||||
}
|
||||
if reason := authErrEQSL(page); reason != "" {
|
||||
return "", fmt.Errorf("eqsl: %s", reason)
|
||||
}
|
||||
m := eqslAdiHrefRe.FindStringSubmatch(page)
|
||||
if m == nil {
|
||||
// eQSL reports problems inline ("Error: …", "You have no … confirmations").
|
||||
return "", fmt.Errorf("eqsl: no download link in response: %s", eqslNoLinkReason(page))
|
||||
}
|
||||
|
||||
// Resolve the link to an absolute URL. eQSL is a Windows/ColdFusion server, so
|
||||
// the path may use BACKSLASHES and a leading `..` (e.g. `..\downloadedFiles\
|
||||
// xxx.adi`); normalise those. It may also be absolute or a bare filename.
|
||||
link := strings.TrimSpace(m[1])
|
||||
link = strings.ReplaceAll(link, `\`, "/")
|
||||
link = strings.TrimPrefix(link, "..") // "../downloadedFiles/…" → "/downloadedFiles/…"
|
||||
var fileURL string
|
||||
switch {
|
||||
case strings.HasPrefix(strings.ToLower(link), "http"):
|
||||
fileURL = link
|
||||
case strings.HasPrefix(link, "/"):
|
||||
fileURL = eqslBaseURL + link
|
||||
default:
|
||||
fileURL = eqslBaseURL + "/" + link
|
||||
}
|
||||
|
||||
// Step 2: fetch the generated .adi file.
|
||||
adif, err := eqslGet(ctx, client, fileURL)
|
||||
if err != nil {
|
||||
return "", fmt.Errorf("eqsl: fetch adif: %w", err)
|
||||
}
|
||||
return adif, nil
|
||||
}
|
||||
|
||||
// eqslNoLinkReason builds a helpful message when no .adi link was found: eQSL's
|
||||
// own error/notice text if present, else a short tag-stripped snippet of the page
|
||||
// so the real wording (e.g. "You have no Inbox items") is visible in the log.
|
||||
func eqslNoLinkReason(page string) string {
|
||||
low := strings.ToLower(page)
|
||||
for _, marker := range []string{"you have no", "no inbox", "error", "invalid", "not found"} {
|
||||
if i := strings.Index(low, marker); i >= 0 {
|
||||
seg := page[i:]
|
||||
if len(seg) > 160 {
|
||||
seg = seg[:160]
|
||||
}
|
||||
return strings.Join(strings.Fields(stripTags(seg)), " ")
|
||||
}
|
||||
}
|
||||
txt := strings.Join(strings.Fields(stripTags(page)), " ")
|
||||
if len(txt) > 200 {
|
||||
txt = txt[:200]
|
||||
}
|
||||
if txt == "" {
|
||||
txt = "empty response"
|
||||
}
|
||||
return txt
|
||||
}
|
||||
|
||||
// stripTags removes HTML tags for a readable one-line diagnostic.
|
||||
func stripTags(s string) string {
|
||||
var b strings.Builder
|
||||
depth := 0
|
||||
for _, r := range s {
|
||||
switch r {
|
||||
case '<':
|
||||
depth++
|
||||
case '>':
|
||||
if depth > 0 {
|
||||
depth--
|
||||
}
|
||||
default:
|
||||
if depth == 0 {
|
||||
b.WriteRune(r)
|
||||
}
|
||||
}
|
||||
}
|
||||
return b.String()
|
||||
}
|
||||
|
||||
// eqslGet does a plain GET and returns the body as text (32 MB cap), erroring on
|
||||
// a non-200 status.
|
||||
func eqslGet(ctx context.Context, client *http.Client, u string) (string, error) {
|
||||
req, err := http.NewRequestWithContext(ctx, http.MethodGet, u, nil)
|
||||
if err != nil {
|
||||
return "", fmt.Errorf("eqsl: build request: %w", err)
|
||||
}
|
||||
resp, err := client.Do(req)
|
||||
if err != nil {
|
||||
return "", fmt.Errorf("eqsl: request failed: %w", err)
|
||||
}
|
||||
defer resp.Body.Close()
|
||||
b, _ := io.ReadAll(io.LimitReader(resp.Body, 32*1024*1024))
|
||||
if resp.StatusCode != http.StatusOK {
|
||||
return "", fmt.Errorf("eqsl: http %d", resp.StatusCode)
|
||||
}
|
||||
return string(b), nil
|
||||
}
|
||||
|
||||
// eqslRcvdSince converts the app's "YYYY-MM-DD" into eQSL's RcvdSince format
|
||||
// "YYYYMMDDHHMM" (midnight). Empty in → empty out (full pull).
|
||||
func eqslRcvdSince(since string) string {
|
||||
s := strings.ReplaceAll(strings.TrimSpace(since), "-", "")
|
||||
if len(s) == 8 { // YYYYMMDD → append 0000 (00:00)
|
||||
return s + "0000"
|
||||
}
|
||||
return s
|
||||
}
|
||||
|
||||
// authErrEQSL returns a reason when the response signals bad credentials, else
|
||||
// "". eQSL replies "Error: No match on eQSL_User/eQSL_Pswd".
|
||||
func authErrEQSL(body string) string {
|
||||
|
||||
@@ -43,9 +43,15 @@ type Event struct {
|
||||
|
||||
DXCall string // ServiceWSJT (Status) or ServiceRemoteCall
|
||||
DXGrid string // ServiceWSJT (Status)
|
||||
Mode string // ServiceWSJT (Status)
|
||||
Mode string // ServiceWSJT (Status/Decode)
|
||||
FreqHz int64 // ServiceWSJT (Status)
|
||||
LoggedADIF string // ServiceWSJT (LoggedADIF), ServiceADIF or ServiceN1MM
|
||||
|
||||
// A WSJT-X Decode (heard station) to render on the panadapter.
|
||||
DecodeCall string // transmitting (DE) callsign
|
||||
DecodeFreqHz int64 // RF frequency (dial + audio offset)
|
||||
DecodeSNR int // reported SNR (dB)
|
||||
DecodeCQ bool // the decode was a CQ
|
||||
}
|
||||
|
||||
// Server is a single inbound UDP listener.
|
||||
@@ -57,6 +63,8 @@ type Server struct {
|
||||
done chan struct{}
|
||||
stopped bool
|
||||
mu sync.Mutex
|
||||
|
||||
lastDialHz int64 // WSJT: dial freq from the last Status, added to Decode offsets
|
||||
}
|
||||
|
||||
func newServer(cfg Config, out chan<- Event) *Server {
|
||||
@@ -175,9 +183,29 @@ func (s *Server) handle(pkt []byte, remote *net.UDPAddr) {
|
||||
return
|
||||
}
|
||||
if !ok {
|
||||
applog.Printf("udp: [%s] WSJT msg type ignored\n", s.cfg.Name)
|
||||
return
|
||||
}
|
||||
// Status carries the current dial frequency; remember it so Decode audio
|
||||
// offsets can be turned into RF frequencies for the panadapter.
|
||||
if w.FreqHz > 0 && !w.IsDecode {
|
||||
s.mu.Lock()
|
||||
s.lastDialHz = w.FreqHz
|
||||
s.mu.Unlock()
|
||||
}
|
||||
if w.IsDecode {
|
||||
s.mu.Lock()
|
||||
dial := s.lastDialHz
|
||||
s.mu.Unlock()
|
||||
if dial <= 0 {
|
||||
return // no dial freq yet (Status not seen) → can't place the spot
|
||||
}
|
||||
ev.DecodeCall = w.DecodeCall
|
||||
ev.DecodeFreqHz = dial + w.DeltaFreqHz
|
||||
ev.DecodeSNR = w.SNR
|
||||
ev.DecodeCQ = w.IsCQ
|
||||
ev.Mode = w.Mode
|
||||
break
|
||||
}
|
||||
applog.Printf("udp: [%s] WSJT decoded: prog=%q dx_call=%q grid=%q mode=%q freq=%d adif_len=%d\n",
|
||||
s.cfg.Name, w.ProgramID, w.DXCall, w.DXGrid, w.Mode, w.FreqHz, len(w.LoggedADIF))
|
||||
ev.DXCall = w.DXCall
|
||||
@@ -241,7 +269,7 @@ func (s *Server) handle(pkt []byte, remote *net.UDPAddr) {
|
||||
return
|
||||
}
|
||||
// Empty events are useless; skip.
|
||||
if ev.DXCall == "" && ev.LoggedADIF == "" {
|
||||
if ev.DXCall == "" && ev.LoggedADIF == "" && ev.DecodeCall == "" {
|
||||
return
|
||||
}
|
||||
select {
|
||||
|
||||
@@ -37,18 +37,27 @@ const (
|
||||
)
|
||||
|
||||
// WSJTEvent is the parsed, typed result of decoding a single packet.
|
||||
// One of (DXCall, LoggedADIF) is non-empty depending on the message.
|
||||
// One of (DXCall, LoggedADIF, DecodeCall) is non-empty depending on the message.
|
||||
type WSJTEvent struct {
|
||||
DXCall string // current "DX Call" field in the WSJT app
|
||||
DXGrid string // optional grid for that call
|
||||
DXCall string // current "DX Call" field in the WSJT app (Status)
|
||||
DXGrid string // optional grid for that call (Status)
|
||||
Mode string // FT8 / FT4 / …
|
||||
FreqHz int64 // current dial freq when available
|
||||
FreqHz int64 // current dial freq when available (Status)
|
||||
LoggedADIF string // full ADIF text when message is LoggedADIF
|
||||
ProgramID string // "WSJT-X" / "JTDX" / "MSHV" — for diagnostics / dedup
|
||||
|
||||
// Decode (type 2): the transmitting station heard on the band. FreqHz is NOT
|
||||
// set here (Decode carries only the audio offset); the caller adds the last
|
||||
// known dial frequency (from Status) to DeltaFreqHz to get the RF frequency.
|
||||
IsDecode bool
|
||||
DecodeCall string // the sender (DE) callsign extracted from the message text
|
||||
DeltaFreqHz int64 // audio offset within the passband (Hz)
|
||||
SNR int // reported signal-to-noise (dB)
|
||||
IsCQ bool // the decode was a CQ call
|
||||
}
|
||||
|
||||
// ParseWSJT decodes one UDP packet. Returns ok=false for messages we
|
||||
// don't care about (heartbeat, decode lines, clears, etc.).
|
||||
// don't care about (heartbeat, clears, etc.).
|
||||
func ParseWSJT(pkt []byte) (WSJTEvent, bool, error) {
|
||||
if len(pkt) < 12 {
|
||||
return WSJTEvent{}, false, fmt.Errorf("packet too short")
|
||||
@@ -143,6 +152,56 @@ func ParseWSJT(pkt []byte) (WSJTEvent, bool, error) {
|
||||
ev.DXGrid = strings.ToUpper(strings.TrimSpace(dxGrid))
|
||||
return ev, true, nil
|
||||
|
||||
case wsjtMsgDecode:
|
||||
// Decode payload (v2):
|
||||
// bool is_new
|
||||
// quint32 time (ms since midnight)
|
||||
// qint32 snr
|
||||
// double delta_time (seconds)
|
||||
// quint32 delta_frequency (Hz, audio offset in the passband)
|
||||
// QUtf8 mode
|
||||
// QUtf8 message (the decoded text, e.g. "CQ K1ABC FN42")
|
||||
// bool low_confidence
|
||||
// bool off_air
|
||||
var b uint8
|
||||
if err := binary.Read(r, binary.BigEndian, &b); err != nil { // is_new
|
||||
return WSJTEvent{}, false, err
|
||||
}
|
||||
var t32, df uint32
|
||||
var snr int32
|
||||
if err := binary.Read(r, binary.BigEndian, &t32); err != nil { // time
|
||||
return WSJTEvent{}, false, err
|
||||
}
|
||||
if err := binary.Read(r, binary.BigEndian, &snr); err != nil {
|
||||
return WSJTEvent{}, false, err
|
||||
}
|
||||
var dt float64
|
||||
if err := binary.Read(r, binary.BigEndian, &dt); err != nil { // delta_time
|
||||
return WSJTEvent{}, false, err
|
||||
}
|
||||
if err := binary.Read(r, binary.BigEndian, &df); err != nil { // delta_frequency
|
||||
return WSJTEvent{}, false, err
|
||||
}
|
||||
mode, err := readQString(r)
|
||||
if err != nil {
|
||||
return WSJTEvent{}, false, err
|
||||
}
|
||||
msg, err := readQString(r)
|
||||
if err != nil {
|
||||
return WSJTEvent{}, false, err
|
||||
}
|
||||
call, isCQ := wsjtSender(msg)
|
||||
if call == "" {
|
||||
return WSJTEvent{}, false, nil // free-text / telemetry / unparseable → ignore
|
||||
}
|
||||
ev.IsDecode = true
|
||||
ev.DecodeCall = call
|
||||
ev.IsCQ = isCQ
|
||||
ev.DeltaFreqHz = int64(df)
|
||||
ev.SNR = int(snr)
|
||||
ev.Mode = strings.ToUpper(strings.TrimSpace(mode))
|
||||
return ev, true, nil
|
||||
|
||||
case wsjtMsgLoggedADIF:
|
||||
// Payload: a single QString containing the ADIF record.
|
||||
adif, err := readQString(r)
|
||||
@@ -155,6 +214,64 @@ func ParseWSJT(pkt []byte) (WSJTEvent, bool, error) {
|
||||
return WSJTEvent{}, false, nil
|
||||
}
|
||||
|
||||
// wsjtSender extracts the transmitting (DE) callsign from a WSJT-X message and
|
||||
// whether it was a CQ. Grammar:
|
||||
//
|
||||
// CQ [modifier] <de_call> [grid] → de_call, isCQ=true
|
||||
// <to_call> <de_call> [report|…] → de_call, isCQ=false
|
||||
//
|
||||
// Returns "" for free-text / telemetry / hashed-call messages we can't resolve.
|
||||
func wsjtSender(message string) (call string, isCQ bool) {
|
||||
f := strings.Fields(strings.ToUpper(strings.TrimSpace(message)))
|
||||
if len(f) == 0 {
|
||||
return "", false
|
||||
}
|
||||
if f[0] == "CQ" {
|
||||
// Skip an optional modifier after CQ (DX / a region like NA / a zone like
|
||||
// 020) — it never looks like a callsign (no letter+digit mix).
|
||||
idx := 1
|
||||
if len(f) > 2 && !looksLikeCall(f[1]) {
|
||||
idx = 2
|
||||
}
|
||||
if idx < len(f) && looksLikeCall(f[idx]) {
|
||||
return f[idx], true
|
||||
}
|
||||
return "", true
|
||||
}
|
||||
// Standard exchange: the DE (sender) call is the second token.
|
||||
if len(f) >= 2 && looksLikeCall(f[1]) {
|
||||
return f[1], false
|
||||
}
|
||||
return "", false
|
||||
}
|
||||
|
||||
// looksLikeCall is a loose callsign test: 3–12 chars of A–Z/0–9//, with at least
|
||||
// one letter AND one digit. Rejects the fixed exchange tokens (RR73/RRR/73) that
|
||||
// would otherwise pass.
|
||||
func looksLikeCall(s string) bool {
|
||||
switch s {
|
||||
case "RR73", "RRR", "73":
|
||||
return false
|
||||
}
|
||||
if len(s) < 3 || len(s) > 12 {
|
||||
return false
|
||||
}
|
||||
hasL, hasD := false, false
|
||||
for i := 0; i < len(s); i++ {
|
||||
c := s[i]
|
||||
switch {
|
||||
case c >= 'A' && c <= 'Z':
|
||||
hasL = true
|
||||
case c >= '0' && c <= '9':
|
||||
hasD = true
|
||||
case c == '/':
|
||||
default:
|
||||
return false
|
||||
}
|
||||
}
|
||||
return hasL && hasD
|
||||
}
|
||||
|
||||
// readQString reads a Qt QString as written by QDataStream: an int32 byte
|
||||
// length (or -1 for null) followed by the UTF-8 bytes.
|
||||
func readQString(r *bytes.Reader) (string, error) {
|
||||
|
||||
@@ -0,0 +1,32 @@
|
||||
package udp
|
||||
|
||||
import "testing"
|
||||
|
||||
func TestWSJTSender(t *testing.T) {
|
||||
cases := []struct {
|
||||
msg string
|
||||
wantCall string
|
||||
wantCQ bool
|
||||
}{
|
||||
{"CQ K1ABC FN42", "K1ABC", true},
|
||||
{"CQ DX W2XYZ EM12", "W2XYZ", true}, // modifier "DX" skipped
|
||||
{"CQ NA VE3ABC FN03", "VE3ABC", true}, // region modifier skipped
|
||||
{"CQ 020 JA1XYZ PM95", "JA1XYZ", true},// zone modifier skipped
|
||||
{"W2XYZ K1ABC -10", "K1ABC", false}, // exchange → sender is 2nd call
|
||||
{"W2XYZ K1ABC R-10", "K1ABC", false},
|
||||
{"W2XYZ K1ABC RR73", "K1ABC", false},
|
||||
{"F4BPO K1ABC/P 73", "K1ABC/P", false},// portable call kept
|
||||
{"CQ F/DL1ABC JO31", "F/DL1ABC", true},// compound prefix
|
||||
// Non-callsign / free text → no sender.
|
||||
{"TNX 73 GL", "", false},
|
||||
{"K1ABC RR73", "", false}, // only one call + a token → 2nd token not a call
|
||||
{"", "", false},
|
||||
{"CQ CQ CQ", "", true}, // CQ but no resolvable call
|
||||
}
|
||||
for _, c := range cases {
|
||||
call, cq := wsjtSender(c.msg)
|
||||
if call != c.wantCall || cq != c.wantCQ {
|
||||
t.Errorf("wsjtSender(%q) = (%q,%v), want (%q,%v)", c.msg, call, cq, c.wantCall, c.wantCQ)
|
||||
}
|
||||
}
|
||||
}
|
||||
@@ -0,0 +1,178 @@
|
||||
// Package lotwusers tracks which callsigns are LoTW users and when they last
|
||||
// uploaded, from ARRL's public "lotw-user-activity.csv" feed. OpsLog shows a
|
||||
// colour-coded badge next to the entered callsign (recent upload = likely to
|
||||
// confirm on LoTW). The list is cached on disk so it survives restarts.
|
||||
package lotwusers
|
||||
|
||||
import (
|
||||
"bufio"
|
||||
"bytes"
|
||||
"context"
|
||||
"fmt"
|
||||
"io"
|
||||
"net/http"
|
||||
"os"
|
||||
"path/filepath"
|
||||
"strings"
|
||||
"sync"
|
||||
"time"
|
||||
)
|
||||
|
||||
// feedURL is ARRL's public LoTW last-upload activity list (CSV:
|
||||
// "CALLSIGN,YYYY-MM-DD,HH:MM:SS", one line per registered LoTW callsign).
|
||||
const feedURL = "https://lotw.arrl.org/lotw-user-activity.csv"
|
||||
|
||||
const cacheFile = "lotw-user-activity.csv"
|
||||
|
||||
// Info is a lookup result for one callsign.
|
||||
type Info struct {
|
||||
IsUser bool `json:"is_user"`
|
||||
LastUpload string `json:"last_upload,omitempty"` // YYYY-MM-DD
|
||||
DaysAgo int `json:"days_ago"` // days since last upload (-1 if unknown)
|
||||
}
|
||||
|
||||
// Manager holds the parsed list + cache location.
|
||||
type Manager struct {
|
||||
mu sync.RWMutex
|
||||
users map[string]time.Time // UPPER(callsign) → last-upload date (UTC)
|
||||
updated time.Time // when the cache was last refreshed
|
||||
dir string
|
||||
client *http.Client
|
||||
}
|
||||
|
||||
// NewManager loads any on-disk cache and returns a ready manager.
|
||||
func NewManager(dataDir string) *Manager {
|
||||
m := &Manager{
|
||||
users: map[string]time.Time{},
|
||||
dir: dataDir,
|
||||
client: &http.Client{Timeout: 90 * time.Second},
|
||||
}
|
||||
m.loadCache()
|
||||
return m
|
||||
}
|
||||
|
||||
func (m *Manager) path() string { return filepath.Join(m.dir, cacheFile) }
|
||||
|
||||
func (m *Manager) loadCache() {
|
||||
data, err := os.ReadFile(m.path())
|
||||
if err != nil {
|
||||
return
|
||||
}
|
||||
m.parse(data)
|
||||
if fi, e := os.Stat(m.path()); e == nil {
|
||||
m.mu.Lock()
|
||||
m.updated = fi.ModTime()
|
||||
m.mu.Unlock()
|
||||
}
|
||||
}
|
||||
|
||||
// Download fetches the latest list, caches it to disk and replaces the in-memory
|
||||
// map. Returns the number of callsigns loaded.
|
||||
func (m *Manager) Download(ctx context.Context) (int, error) {
|
||||
req, err := http.NewRequestWithContext(ctx, http.MethodGet, feedURL, nil)
|
||||
if err != nil {
|
||||
return 0, err
|
||||
}
|
||||
req.Header.Set("User-Agent", "OpsLog")
|
||||
resp, err := m.client.Do(req)
|
||||
if err != nil {
|
||||
return 0, fmt.Errorf("lotwusers: request failed: %w", err)
|
||||
}
|
||||
defer resp.Body.Close()
|
||||
if resp.StatusCode != http.StatusOK {
|
||||
return 0, fmt.Errorf("lotwusers: http %d", resp.StatusCode)
|
||||
}
|
||||
body, err := io.ReadAll(io.LimitReader(resp.Body, 64*1024*1024))
|
||||
if err != nil {
|
||||
return 0, fmt.Errorf("lotwusers: read: %w", err)
|
||||
}
|
||||
n := m.parse(body)
|
||||
if n == 0 {
|
||||
return 0, fmt.Errorf("lotwusers: feed parsed to 0 callsigns")
|
||||
}
|
||||
_ = os.WriteFile(m.path(), body, 0o644) // best-effort cache
|
||||
m.mu.Lock()
|
||||
m.updated = time.Now()
|
||||
m.mu.Unlock()
|
||||
return n, nil
|
||||
}
|
||||
|
||||
// parse loads the CSV bytes into the map and returns the count.
|
||||
func (m *Manager) parse(data []byte) int {
|
||||
users := make(map[string]time.Time, 1<<20)
|
||||
sc := bufio.NewScanner(bytes.NewReader(data))
|
||||
sc.Buffer(make([]byte, 1024*1024), 1024*1024)
|
||||
for sc.Scan() {
|
||||
line := strings.TrimSpace(sc.Text())
|
||||
if line == "" {
|
||||
continue
|
||||
}
|
||||
parts := strings.Split(line, ",")
|
||||
if len(parts) < 2 {
|
||||
continue
|
||||
}
|
||||
call := strings.ToUpper(strings.TrimSpace(parts[0]))
|
||||
if call == "" || strings.EqualFold(call, "callsign") {
|
||||
continue // header row
|
||||
}
|
||||
t, err := time.Parse("2006-01-02", strings.TrimSpace(parts[1]))
|
||||
if err != nil {
|
||||
continue
|
||||
}
|
||||
users[call] = t
|
||||
}
|
||||
if len(users) == 0 {
|
||||
return 0
|
||||
}
|
||||
m.mu.Lock()
|
||||
m.users = users
|
||||
m.mu.Unlock()
|
||||
return len(users)
|
||||
}
|
||||
|
||||
// Lookup reports whether callsign is a LoTW user and how long ago it uploaded.
|
||||
// Tries the exact call, then (for portable calls like "EA8/DL1ABC" or "F5ABC/P")
|
||||
// the longest slash-separated segment — the base call LoTW is keyed on.
|
||||
func (m *Manager) Lookup(callsign string) Info {
|
||||
c := strings.ToUpper(strings.TrimSpace(callsign))
|
||||
if c == "" {
|
||||
return Info{DaysAgo: -1}
|
||||
}
|
||||
m.mu.RLock()
|
||||
defer m.mu.RUnlock()
|
||||
if len(m.users) == 0 {
|
||||
return Info{DaysAgo: -1}
|
||||
}
|
||||
t, ok := m.users[c]
|
||||
if !ok && strings.Contains(c, "/") {
|
||||
base := ""
|
||||
for _, seg := range strings.Split(c, "/") {
|
||||
if len(seg) > len(base) {
|
||||
base = seg
|
||||
}
|
||||
}
|
||||
t, ok = m.users[base]
|
||||
}
|
||||
if !ok {
|
||||
return Info{DaysAgo: -1}
|
||||
}
|
||||
days := int(time.Since(t).Hours() / 24)
|
||||
if days < 0 {
|
||||
days = 0
|
||||
}
|
||||
return Info{IsUser: true, LastUpload: t.Format("2006-01-02"), DaysAgo: days}
|
||||
}
|
||||
|
||||
// Count returns how many callsigns are loaded.
|
||||
func (m *Manager) Count() int {
|
||||
m.mu.RLock()
|
||||
defer m.mu.RUnlock()
|
||||
return len(m.users)
|
||||
}
|
||||
|
||||
// Updated returns when the list was last refreshed (zero if never).
|
||||
func (m *Manager) Updated() time.Time {
|
||||
m.mu.RLock()
|
||||
defer m.mu.RUnlock()
|
||||
return m.updated
|
||||
}
|
||||
+20
-10
@@ -22,16 +22,26 @@ import (
|
||||
|
||||
// Station is one roster entry: a station registered in a net.
|
||||
type Station struct {
|
||||
Callsign string `json:"callsign"`
|
||||
Name string `json:"name,omitempty"`
|
||||
QTH string `json:"qth,omitempty"`
|
||||
Country string `json:"country,omitempty"`
|
||||
DXCC int `json:"dxcc,omitempty"`
|
||||
ITU int `json:"itu,omitempty"`
|
||||
CQ int `json:"cq,omitempty"`
|
||||
Groups string `json:"groups,omitempty"`
|
||||
SIG string `json:"sig,omitempty"`
|
||||
SIGInfo string `json:"sig_info,omitempty"`
|
||||
Callsign string `json:"callsign"`
|
||||
Name string `json:"name,omitempty"`
|
||||
QTH string `json:"qth,omitempty"`
|
||||
Country string `json:"country,omitempty"`
|
||||
DXCC int `json:"dxcc,omitempty"`
|
||||
ITU int `json:"itu,omitempty"`
|
||||
CQ int `json:"cq,omitempty"`
|
||||
// Full lookup detail so a roster contact carries EVERYTHING into the QSO when
|
||||
// put on air (was previously only name/qth — grid/address/etc. were lost).
|
||||
Grid string `json:"grid,omitempty"`
|
||||
Address string `json:"address,omitempty"`
|
||||
State string `json:"state,omitempty"`
|
||||
Cnty string `json:"cnty,omitempty"`
|
||||
Cont string `json:"cont,omitempty"`
|
||||
Lat float64 `json:"lat,omitempty"`
|
||||
Lon float64 `json:"lon,omitempty"`
|
||||
Email string `json:"email,omitempty"`
|
||||
Groups string `json:"groups,omitempty"`
|
||||
SIG string `json:"sig,omitempty"`
|
||||
SIGInfo string `json:"sig_info,omitempty"`
|
||||
}
|
||||
|
||||
// Net is a named net with default report values and a station roster.
|
||||
|
||||
@@ -46,6 +46,28 @@ func (r *Repo) List(ctx context.Context) ([]Record, error) {
|
||||
return out, rows.Err()
|
||||
}
|
||||
|
||||
// ListFor returns the templates VISIBLE to a profile: its own plus any shared
|
||||
// (NULL-profile) ones — so each profile sees and defaults independently instead
|
||||
// of one global list. Defaults first, then newest first.
|
||||
func (r *Repo) ListFor(ctx context.Context, profileID int64) ([]Record, error) {
|
||||
rows, err := r.db.QueryContext(ctx, `SELECT `+repoCols+`
|
||||
FROM qsl_templates WHERE profile_id = ? OR profile_id IS NULL
|
||||
ORDER BY is_default DESC, id DESC`, profileID)
|
||||
if err != nil {
|
||||
return nil, err
|
||||
}
|
||||
defer rows.Close()
|
||||
var out []Record
|
||||
for rows.Next() {
|
||||
rec, err := scanRecord(rows)
|
||||
if err != nil {
|
||||
return nil, err
|
||||
}
|
||||
out = append(out, rec)
|
||||
}
|
||||
return out, rows.Err()
|
||||
}
|
||||
|
||||
// Get returns one template by ID, or sql.ErrNoRows if missing.
|
||||
func (r *Repo) Get(ctx context.Context, id int64) (Record, error) {
|
||||
row := r.db.QueryRowContext(ctx, `SELECT `+repoCols+`
|
||||
@@ -124,10 +146,15 @@ func (r *Repo) SetDefault(ctx context.Context, id int64) error {
|
||||
// DefaultFor returns the best template for a profile: its own default, then
|
||||
// any profile-less default, then the newest template. sql.ErrNoRows if none.
|
||||
func (r *Repo) DefaultFor(ctx context.Context, profileID int64) (Record, error) {
|
||||
// Only the profile's OWN templates or shared (NULL) ones — never another
|
||||
// profile's, so a profile with no default doesn't inherit some other
|
||||
// profile's newest template (the "default looked global" bug).
|
||||
row := r.db.QueryRowContext(ctx, `SELECT `+repoCols+` FROM qsl_templates
|
||||
WHERE profile_id = ? OR profile_id IS NULL
|
||||
ORDER BY (is_default = 1 AND profile_id = ?) DESC,
|
||||
(is_default = 1 AND profile_id IS NULL) DESC,
|
||||
id DESC LIMIT 1`, profileID)
|
||||
(profile_id = ?) DESC,
|
||||
id DESC LIMIT 1`, profileID, profileID, profileID)
|
||||
return scanRecord(row)
|
||||
}
|
||||
|
||||
|
||||
@@ -194,6 +194,7 @@ type QSOBox struct {
|
||||
H float64 `json:"h"`
|
||||
BG string `json:"bg"`
|
||||
BGOpacity float64 `json:"bg_opacity"`
|
||||
FG string `json:"fg,omitempty"` // text colour (default dark)
|
||||
Radius float64 `json:"radius"`
|
||||
Title string `json:"title"`
|
||||
Fields []string `json:"fields"`
|
||||
|
||||
@@ -0,0 +1,49 @@
|
||||
package qso
|
||||
|
||||
import (
|
||||
"testing"
|
||||
"time"
|
||||
)
|
||||
|
||||
func tm(s string) time.Time {
|
||||
t, _ := time.Parse("2006-01-02T15:04", s)
|
||||
return t
|
||||
}
|
||||
|
||||
func TestMatchIndexWindowAndMode(t *testing.T) {
|
||||
idx := &MatchIndex{byMode: map[string][]matchRef{}}
|
||||
// Local log: a CW QSO, an SSB (logged as USB) QSO, and an FT8 QSO.
|
||||
idx.Add("4Z4DX", "15m", "CW", tm("2026-06-20T10:13"), 1)
|
||||
idx.Add("V85NPV", "15m", "USB", tm("2025-04-18T17:01"), 2)
|
||||
idx.Add("DK0SWL", "20m", "FT8", tm("2026-03-01T09:00"), 3)
|
||||
|
||||
win := 10 * time.Minute
|
||||
cases := []struct {
|
||||
name string
|
||||
call, band, mode string
|
||||
when string
|
||||
wantID int64
|
||||
wantOK bool
|
||||
}{
|
||||
{"exact", "4Z4DX", "15m", "CW", "2026-06-20T10:13", 1, true},
|
||||
{"1-min drift", "4Z4DX", "15m", "CW", "2026-06-20T10:12", 1, true},
|
||||
{"9-min drift ok", "4Z4DX", "15m", "CW", "2026-06-20T10:04", 1, true},
|
||||
{"30-min drift misses", "4Z4DX", "15m", "CW", "2026-06-20T10:43", 0, false},
|
||||
// Phone sidebands are interchangeable: an SSB confirmation matches a USB log.
|
||||
{"SSB conf vs USB log", "V85NPV", "15m", "SSB", "2025-04-18T17:00", 2, true},
|
||||
{"LSB conf vs USB log", "V85NPV", "15m", "LSB", "2025-04-18T17:00", 2, true},
|
||||
// But a digital/phone mismatch does NOT match (exact for non-phone).
|
||||
{"FT8 conf vs SSB log misses", "V85NPV", "15m", "FT8", "2025-04-18T17:00", 0, false},
|
||||
// Digital is exact: FT8 matches FT8, but FT4 would not.
|
||||
{"FT8 exact", "DK0SWL", "20m", "FT8", "2026-03-01T09:01", 3, true},
|
||||
{"FT4 vs FT8 misses", "DK0SWL", "20m", "FT4", "2026-03-01T09:01", 0, false},
|
||||
{"wrong band misses", "DK0SWL", "40m", "FT8", "2026-03-01T09:01", 0, false},
|
||||
{"unknown call misses", "N0CALL", "15m", "CW", "2026-06-20T10:13", 0, false},
|
||||
}
|
||||
for _, c := range cases {
|
||||
id, ok := idx.Match(c.call, c.band, c.mode, tm(c.when), win)
|
||||
if ok != c.wantOK || (ok && id != c.wantID) {
|
||||
t.Errorf("%s: got (id=%d ok=%v), want (id=%d ok=%v)", c.name, id, ok, c.wantID, c.wantOK)
|
||||
}
|
||||
}
|
||||
}
|
||||
@@ -490,6 +490,7 @@ type UploadRow struct {
|
||||
// Manager may filter on (guards the dynamic column name in the query).
|
||||
var uploadStatusCols = map[string]bool{
|
||||
"lotw_sent": true,
|
||||
"eqsl_sent": true,
|
||||
"qrzcom_qso_upload_status": true,
|
||||
"clublog_qso_upload_status": true,
|
||||
"hrdlog_qso_upload_status": true,
|
||||
@@ -723,6 +724,26 @@ var bulkEditableCols = map[string]bool{
|
||||
"my_antenna": true,
|
||||
"my_sig": true,
|
||||
"my_sig_info": true,
|
||||
// Contest — the exchange/label fields that are constant across a run.
|
||||
// (srx/stx serial numbers stay excluded: they are per-QSO.)
|
||||
"contest_id": true,
|
||||
"srx_string": true,
|
||||
"stx_string": true,
|
||||
"arrl_sect": true,
|
||||
"precedence": true,
|
||||
"class": true,
|
||||
// Propagation / satellite — usually identical across a session.
|
||||
"prop_mode": true,
|
||||
"sat_name": true,
|
||||
"sat_mode": true,
|
||||
// Contacted station activation refs / SIG — meaningful to set across a
|
||||
// selected batch (e.g. a park/summit worked repeatedly).
|
||||
"pota_ref": true,
|
||||
"sota_ref": true,
|
||||
"wwff_ref": true,
|
||||
"iota": true,
|
||||
"sig": true,
|
||||
"sig_info": true,
|
||||
// Misc text
|
||||
"comment": true,
|
||||
"notes": true,
|
||||
@@ -1793,6 +1814,117 @@ func (r *Repo) DedupeKeyIDs(ctx context.Context) (map[string]int64, error) {
|
||||
return out, rows.Err()
|
||||
}
|
||||
|
||||
// matchRef is one local QSO's time + id, for time-window confirmation matching.
|
||||
type matchRef struct {
|
||||
when time.Time
|
||||
id int64
|
||||
}
|
||||
|
||||
// MatchIndex matches a downloaded confirmation to a local QSO within a TIME
|
||||
// WINDOW (not an exact minute): QSL confirmations carry the OTHER station's
|
||||
// logged time, which drifts a minute or two from ours. The MODE must match, with
|
||||
// ONE equivalence: the phone modes SSB/USB/LSB are interchangeable (a station may
|
||||
// confirm USB where we logged SSB). Every other mode is exact (FT8 only matches
|
||||
// FT8, FT4 only FT4, CW only CW…). Built in one table scan.
|
||||
type MatchIndex struct {
|
||||
byMode map[string][]matchRef // call|band|canonMode → refs
|
||||
}
|
||||
|
||||
// canonMode folds the phone sidebands into a single "SSB" bucket; every other
|
||||
// mode is returned uppercased and unchanged (exact-match).
|
||||
func canonMode(mode string) string {
|
||||
m := strings.ToUpper(strings.TrimSpace(mode))
|
||||
switch m {
|
||||
case "SSB", "USB", "LSB":
|
||||
return "SSB"
|
||||
}
|
||||
return m
|
||||
}
|
||||
|
||||
func matchKeyMode(call, band, mode string) string {
|
||||
return strings.ToUpper(call) + "|" + strings.ToLower(band) + "|" + canonMode(mode)
|
||||
}
|
||||
|
||||
// parseQSODate reads the stored qso_date (ISO "2006-01-02T15:04[:05…]") to minute
|
||||
// precision as UTC. Zero time on failure (never matched).
|
||||
func parseQSODate(s string) time.Time {
|
||||
if len(s) >= 16 {
|
||||
if t, err := time.Parse("2006-01-02T15:04", s[:16]); err == nil {
|
||||
return t
|
||||
}
|
||||
}
|
||||
return time.Time{}
|
||||
}
|
||||
|
||||
// BuildMatchIndex scans the log once and indexes every QSO by call+band(+mode)
|
||||
// with its time, for windowed confirmation matching. When ownerCall is non-empty
|
||||
// the index is SCOPED to QSOs whose station_callsign is that call (or blank —
|
||||
// legacy QSOs that predate station-callsign stamping), so a confirmation download
|
||||
// for one of the operator's calls (e.g. F4BPO) never touches QSOs logged under
|
||||
// another (e.g. TM2Q).
|
||||
func (r *Repo) BuildMatchIndex(ctx context.Context, ownerCall string) (*MatchIndex, error) {
|
||||
idx := &MatchIndex{byMode: map[string][]matchRef{}}
|
||||
query := `SELECT id, callsign, qso_date, band, mode FROM qso`
|
||||
var args []any
|
||||
if oc := strings.ToUpper(strings.TrimSpace(ownerCall)); oc != "" {
|
||||
query += ` WHERE UPPER(TRIM(COALESCE(station_callsign,''))) IN ('', ?)`
|
||||
args = append(args, oc)
|
||||
}
|
||||
rows, err := r.db.QueryContext(ctx, query, args...)
|
||||
if err != nil {
|
||||
return idx, err
|
||||
}
|
||||
defer rows.Close()
|
||||
for rows.Next() {
|
||||
var id int64
|
||||
var call, when, band, mode string
|
||||
if err := rows.Scan(&id, &call, &when, &band, &mode); err != nil {
|
||||
return idx, err
|
||||
}
|
||||
idx.add(call, band, mode, parseQSODate(when), id)
|
||||
}
|
||||
return idx, rows.Err()
|
||||
}
|
||||
|
||||
// add inserts a QSO into the index (also used to register a freshly-inserted
|
||||
// "add not-found" QSO so later confirmations in the same batch can match it).
|
||||
func (idx *MatchIndex) add(call, band, mode string, when time.Time, id int64) {
|
||||
mk := matchKeyMode(call, band, mode)
|
||||
idx.byMode[mk] = append(idx.byMode[mk], matchRef{when: when, id: id})
|
||||
}
|
||||
|
||||
// Add registers a QSO in the index (exported wrapper for callers that inserted a
|
||||
// not-found confirmation).
|
||||
func (idx *MatchIndex) Add(call, band, mode string, when time.Time, id int64) {
|
||||
idx.add(call, band, mode, when, id)
|
||||
}
|
||||
|
||||
// Match returns the id of the local QSO closest in time to `when` (within
|
||||
// `window`) for the given call/band/mode. The mode must match (phone sidebands
|
||||
// folded together by canonMode). Ok is false when nothing is within the window.
|
||||
func (idx *MatchIndex) Match(call, band, mode string, when time.Time, window time.Duration) (int64, bool) {
|
||||
return closestRef(idx.byMode[matchKeyMode(call, band, mode)], when, window)
|
||||
}
|
||||
|
||||
func closestRef(refs []matchRef, when time.Time, window time.Duration) (int64, bool) {
|
||||
var best int64
|
||||
bestD := window + time.Second
|
||||
found := false
|
||||
for _, rf := range refs {
|
||||
if rf.when.IsZero() {
|
||||
continue
|
||||
}
|
||||
d := when.Sub(rf.when)
|
||||
if d < 0 {
|
||||
d = -d
|
||||
}
|
||||
if d <= window && d < bestD {
|
||||
bestD, best, found = d, rf.id, true
|
||||
}
|
||||
}
|
||||
return best, found
|
||||
}
|
||||
|
||||
// ConfirmedSets captures which DXCC / band / slot combinations are already
|
||||
// confirmed (by any QSL system), so a freshly-downloaded confirmation can be
|
||||
// flagged as a NEW DXCC / NEW BAND / NEW SLOT.
|
||||
@@ -1870,6 +2002,19 @@ func (r *Repo) MarkQRZConfirmed(ctx context.Context, id int64, date string) erro
|
||||
return nil
|
||||
}
|
||||
|
||||
// MarkEQSLConfirmed stamps EQSL_QSL_RCVD=Y and the received date on a QSO after
|
||||
// an eQSL Inbox download. date is an ADIF YYYYMMDD string.
|
||||
func (r *Repo) MarkEQSLConfirmed(ctx context.Context, id int64, date string) error {
|
||||
_, err := r.db.ExecContext(ctx,
|
||||
`UPDATE qso SET eqsl_rcvd = 'Y', eqsl_rcvd_date = ?,
|
||||
updated_at = ? WHERE id = ?`,
|
||||
date, db.NowISO(), id)
|
||||
if err != nil {
|
||||
return fmt.Errorf("mark eqsl confirmed %d: %w", id, err)
|
||||
}
|
||||
return nil
|
||||
}
|
||||
|
||||
// MarkLoTWConfirmed stamps LOTW_QSL_RCVD=Y and the received date on a QSO
|
||||
// after a LoTW confirmation download. date is an ADIF YYYYMMDD string.
|
||||
func (r *Repo) MarkLoTWConfirmed(ctx context.Context, id int64, date string) error {
|
||||
|
||||
@@ -0,0 +1,178 @@
|
||||
// Package solar fetches live space-weather / propagation numbers (solar flux,
|
||||
// sunspot number, A/K indices, X-ray, geomagnetic field) from N0NBH's public
|
||||
// hamqsl.com XML feed, caches them, and refreshes periodically. OpsLog shows the
|
||||
// numbers in a header strip and stamps SFI / A_INDEX / K_INDEX onto each logged
|
||||
// QSO (SSN has no standard ADIF field — the app stores it as an extra).
|
||||
package solar
|
||||
|
||||
import (
|
||||
"context"
|
||||
"encoding/xml"
|
||||
"fmt"
|
||||
"io"
|
||||
"net/http"
|
||||
"strings"
|
||||
"sync"
|
||||
"time"
|
||||
)
|
||||
|
||||
// feedURL is N0NBH's solar data as XML. Free, no key.
|
||||
const feedURL = "https://www.hamqsl.com/solarxml.php"
|
||||
|
||||
// Data is the parsed snapshot exposed to the UI (strings — some fields read
|
||||
// "No Report" or carry units, so we keep them verbatim and parse to numbers only
|
||||
// when stamping a QSO).
|
||||
type Data struct {
|
||||
SFI string `json:"sfi"` // solar flux index
|
||||
SSN string `json:"ssn"` // sunspot number
|
||||
AIndex string `json:"a_index"` // geomagnetic A index
|
||||
KIndex string `json:"k_index"` // geomagnetic K index
|
||||
XRay string `json:"xray"` // X-ray flux class (e.g. C1.5)
|
||||
GeomagField string `json:"geomag_field"` // QUIET / UNSETTLED / STORM…
|
||||
Aurora string `json:"aurora"`
|
||||
MUF string `json:"muf"`
|
||||
Updated string `json:"updated"` // source timestamp text
|
||||
Source string `json:"source"` // e.g. N0NBH
|
||||
OK bool `json:"ok"` // last fetch succeeded
|
||||
Error string `json:"error,omitempty"`
|
||||
FetchedAt time.Time `json:"fetched_at"`
|
||||
}
|
||||
|
||||
// xmlSolar mirrors the hamqsl solarxml.php document.
|
||||
type xmlSolar struct {
|
||||
XMLName xml.Name `xml:"solar"`
|
||||
SolarData struct {
|
||||
Source string `xml:"source"`
|
||||
Updated string `xml:"updated"`
|
||||
SolarFlux string `xml:"solarflux"`
|
||||
AIndex string `xml:"aindex"`
|
||||
KIndex string `xml:"kindex"`
|
||||
XRay string `xml:"xray"`
|
||||
Sunspots string `xml:"sunspots"`
|
||||
Aurora string `xml:"aurora"`
|
||||
GeomagField string `xml:"geomagfield"`
|
||||
MUF string `xml:"muf"`
|
||||
} `xml:"solardata"`
|
||||
}
|
||||
|
||||
// Fetch performs one GET + parse of the feed.
|
||||
func Fetch(ctx context.Context, client *http.Client) (Data, error) {
|
||||
if client == nil {
|
||||
client = &http.Client{Timeout: 20 * time.Second}
|
||||
}
|
||||
req, err := http.NewRequestWithContext(ctx, http.MethodGet, feedURL, nil)
|
||||
if err != nil {
|
||||
return Data{}, err
|
||||
}
|
||||
req.Header.Set("User-Agent", "OpsLog")
|
||||
resp, err := client.Do(req)
|
||||
if err != nil {
|
||||
return Data{}, fmt.Errorf("solar: request failed: %w", err)
|
||||
}
|
||||
defer resp.Body.Close()
|
||||
body, err := io.ReadAll(io.LimitReader(resp.Body, 1<<20))
|
||||
if err != nil {
|
||||
return Data{}, fmt.Errorf("solar: read: %w", err)
|
||||
}
|
||||
if resp.StatusCode != http.StatusOK {
|
||||
return Data{}, fmt.Errorf("solar: http %d", resp.StatusCode)
|
||||
}
|
||||
return parseSolar(body)
|
||||
}
|
||||
|
||||
// parseSolar turns the feed's XML bytes into a Data (split out so it can be
|
||||
// unit-tested without a network call).
|
||||
func parseSolar(body []byte) (Data, error) {
|
||||
var x xmlSolar
|
||||
if err := xml.Unmarshal(body, &x); err != nil {
|
||||
return Data{}, fmt.Errorf("solar: parse: %w", err)
|
||||
}
|
||||
s := x.SolarData
|
||||
return Data{
|
||||
SFI: strings.TrimSpace(s.SolarFlux),
|
||||
SSN: strings.TrimSpace(s.Sunspots),
|
||||
AIndex: strings.TrimSpace(s.AIndex),
|
||||
KIndex: strings.TrimSpace(s.KIndex),
|
||||
XRay: strings.TrimSpace(s.XRay),
|
||||
GeomagField: strings.TrimSpace(s.GeomagField),
|
||||
Aurora: strings.TrimSpace(s.Aurora),
|
||||
MUF: strings.TrimSpace(s.MUF),
|
||||
Updated: strings.TrimSpace(s.Updated),
|
||||
Source: strings.TrimSpace(s.Source),
|
||||
OK: true,
|
||||
FetchedAt: time.Now(),
|
||||
}, nil
|
||||
}
|
||||
|
||||
// Manager caches the latest Data and refreshes it on a timer.
|
||||
type Manager struct {
|
||||
mu sync.RWMutex
|
||||
data Data
|
||||
client *http.Client
|
||||
onChange func()
|
||||
stop chan struct{}
|
||||
once sync.Once
|
||||
}
|
||||
|
||||
// NewManager builds a manager. onChange (optional) fires after each refresh so
|
||||
// the host can push a UI event.
|
||||
func NewManager(onChange func()) *Manager {
|
||||
return &Manager{
|
||||
client: &http.Client{Timeout: 20 * time.Second},
|
||||
onChange: onChange,
|
||||
stop: make(chan struct{}),
|
||||
}
|
||||
}
|
||||
|
||||
// Start fetches now and every hour until Stop (the feed updates roughly hourly).
|
||||
func (m *Manager) Start() {
|
||||
go func() {
|
||||
m.refresh()
|
||||
t := time.NewTicker(1 * time.Hour)
|
||||
defer t.Stop()
|
||||
for {
|
||||
select {
|
||||
case <-m.stop:
|
||||
return
|
||||
case <-t.C:
|
||||
m.refresh()
|
||||
}
|
||||
}
|
||||
}()
|
||||
}
|
||||
|
||||
// Stop ends the refresh loop.
|
||||
func (m *Manager) Stop() {
|
||||
if m == nil {
|
||||
return
|
||||
}
|
||||
m.once.Do(func() { close(m.stop) })
|
||||
}
|
||||
|
||||
// Get returns the latest snapshot.
|
||||
func (m *Manager) Get() Data {
|
||||
if m == nil {
|
||||
return Data{}
|
||||
}
|
||||
m.mu.RLock()
|
||||
defer m.mu.RUnlock()
|
||||
return m.data
|
||||
}
|
||||
|
||||
// Refresh forces an immediate fetch (used by a manual "refresh" binding).
|
||||
func (m *Manager) Refresh() { m.refresh() }
|
||||
|
||||
func (m *Manager) refresh() {
|
||||
d, err := Fetch(context.Background(), m.client)
|
||||
m.mu.Lock()
|
||||
if err != nil {
|
||||
m.data.OK = false
|
||||
m.data.Error = err.Error()
|
||||
} else {
|
||||
m.data = d
|
||||
}
|
||||
m.mu.Unlock()
|
||||
if m.onChange != nil {
|
||||
m.onChange()
|
||||
}
|
||||
}
|
||||
@@ -0,0 +1,48 @@
|
||||
package solar
|
||||
|
||||
import "testing"
|
||||
|
||||
// A trimmed sample of the real N0NBH hamqsl.com solarxml.php document.
|
||||
const sampleXML = `<?xml version="1.0"?>
|
||||
<solar>
|
||||
<solardata>
|
||||
<source url="http://www.hamqsl.com/solar.html">N0NBH</source>
|
||||
<updated>08 Jul 2025 2100 GMT</updated>
|
||||
<solarflux>170</solarflux>
|
||||
<aindex>5</aindex>
|
||||
<kindex>2</kindex>
|
||||
<xray>C1.5</xray>
|
||||
<sunspots>150</sunspots>
|
||||
<geomagfield>QUIET</geomagfield>
|
||||
<muf>18.5</muf>
|
||||
</solardata>
|
||||
</solar>`
|
||||
|
||||
func TestParseSolar(t *testing.T) {
|
||||
d, err := parseSolar([]byte(sampleXML))
|
||||
if err != nil {
|
||||
t.Fatalf("parse: %v", err)
|
||||
}
|
||||
if !d.OK {
|
||||
t.Fatalf("expected OK")
|
||||
}
|
||||
checks := map[string]string{
|
||||
"SFI": d.SFI, "SSN": d.SSN, "A": d.AIndex, "K": d.KIndex,
|
||||
"XRay": d.XRay, "Geomag": d.GeomagField, "Source": d.Source,
|
||||
}
|
||||
want := map[string]string{
|
||||
"SFI": "170", "SSN": "150", "A": "5", "K": "2",
|
||||
"XRay": "C1.5", "Geomag": "QUIET", "Source": "N0NBH",
|
||||
}
|
||||
for k, got := range checks {
|
||||
if got != want[k] {
|
||||
t.Errorf("%s = %q, want %q", k, got, want[k])
|
||||
}
|
||||
}
|
||||
}
|
||||
|
||||
func TestParseSolarBadXML(t *testing.T) {
|
||||
if _, err := parseSolar([]byte("not xml")); err == nil {
|
||||
t.Fatalf("expected an error for non-XML input")
|
||||
}
|
||||
}
|
||||
@@ -9,6 +9,7 @@ import (
|
||||
"fmt"
|
||||
"log"
|
||||
"net"
|
||||
"runtime"
|
||||
"sync"
|
||||
"time"
|
||||
)
|
||||
@@ -75,6 +76,20 @@ type Client struct {
|
||||
pendingDir int
|
||||
pendingDirAt time.Time
|
||||
pendingDirSet bool
|
||||
|
||||
// lastSetKHz is the frequency we last COMMANDED. Used as the follow-loop
|
||||
// deadband reference when the antenna's own status hasn't reported a frequency
|
||||
// yet (Frequency==0) — otherwise the deadband is bypassed and every small QSY
|
||||
// re-tunes the motors.
|
||||
lastSetKHz int
|
||||
}
|
||||
|
||||
// LastSetKHz returns the frequency (kHz) most recently commanded to the antenna,
|
||||
// or 0 if none yet.
|
||||
func (c *Client) LastSetKHz() int {
|
||||
c.statusMu.RLock()
|
||||
defer c.statusMu.RUnlock()
|
||||
return c.lastSetKHz
|
||||
}
|
||||
|
||||
type Status struct {
|
||||
@@ -457,6 +472,15 @@ func (c *Client) queryProgress() ([]int, error) {
|
||||
|
||||
// SetFrequency changes frequency and optional direction (command 3)
|
||||
func (c *Client) SetFrequency(freqKhz int, direction int) error {
|
||||
// Trace WHO asked for the change — the caller's function + line — so an
|
||||
// unexpected antenna QSY (e.g. jumping to 14.074 while on 40m) can be traced
|
||||
// to the follow loop, an immediate re-tune, or a direction re-issue.
|
||||
caller := "?"
|
||||
if pc, _, line, ok := runtime.Caller(1); ok {
|
||||
caller = fmt.Sprintf("%s:%d", runtime.FuncForPC(pc).Name(), line)
|
||||
}
|
||||
log.Printf("Ultrabeam: SetFrequency(%d kHz, dir %d) ← %s", freqKhz, direction, caller)
|
||||
|
||||
data := []byte{
|
||||
byte(freqKhz & 0xFF),
|
||||
byte((freqKhz >> 8) & 0xFF),
|
||||
@@ -467,6 +491,7 @@ func (c *Client) SetFrequency(freqKhz int, direction int) error {
|
||||
if err == nil {
|
||||
c.statusMu.Lock()
|
||||
c.pendingDir, c.pendingDirAt, c.pendingDirSet = direction, time.Now(), true
|
||||
c.lastSetKHz = freqKhz
|
||||
if c.lastStatus != nil {
|
||||
c.lastStatus.Direction = direction // reflect immediately
|
||||
}
|
||||
|
||||
@@ -36,6 +36,15 @@ func profileArg(args []string) string {
|
||||
}
|
||||
|
||||
func main() {
|
||||
// Single-instance guard: if OpsLog is already running, focus that window and
|
||||
// exit instead of spawning a duplicate. A second process would open its own
|
||||
// CAT (FlexRadio) connection and Ultrabeam follow loop, and the two would
|
||||
// fight over the rig/antenna frequency — the cause of "the antenna re-tunes on
|
||||
// its own" when a windowless zombie instance was left running.
|
||||
if !acquireSingleInstance() {
|
||||
return
|
||||
}
|
||||
|
||||
// Create an instance of the app structure
|
||||
app := NewApp()
|
||||
app.startupProfile = profileArg(os.Args[1:])
|
||||
|
||||
@@ -0,0 +1,7 @@
|
||||
//go:build !windows
|
||||
|
||||
package main
|
||||
|
||||
// acquireSingleInstance is a no-op off Windows (the single-instance guard uses a
|
||||
// Windows named mutex). Always allows the app to start.
|
||||
func acquireSingleInstance() bool { return true }
|
||||
@@ -0,0 +1,64 @@
|
||||
//go:build windows
|
||||
|
||||
package main
|
||||
|
||||
import (
|
||||
"errors"
|
||||
"unsafe"
|
||||
|
||||
"golang.org/x/sys/windows"
|
||||
)
|
||||
|
||||
// singleInstanceName is a per-session named mutex. The Windows kernel releases
|
||||
// it automatically when the owning process dies (even on a crash), so a
|
||||
// lingering/zombie OpsLog can't permanently block future launches — killing it
|
||||
// frees the name at once. Session-local (no "Global\\") = one instance per
|
||||
// logged-in desktop, which is what we want.
|
||||
const singleInstanceName = "OpsLog-SingleInstance-Mutex"
|
||||
|
||||
// acquireSingleInstance creates the named mutex. Returns ok=false when another
|
||||
// OpsLog already holds it (this instance should exit); on the way out it brings
|
||||
// the existing window to the front so a double-click just refocuses OpsLog
|
||||
// instead of spawning a duplicate that fights over the CAT / antenna.
|
||||
//
|
||||
// The mutex handle is deliberately never closed — it must live for the whole
|
||||
// process lifetime; the OS reclaims it on exit.
|
||||
func acquireSingleInstance() (ok bool) {
|
||||
namePtr, err := windows.UTF16PtrFromString(singleInstanceName)
|
||||
if err != nil {
|
||||
return true // never block launch on an unexpected error
|
||||
}
|
||||
kernel32 := windows.NewLazySystemDLL("kernel32.dll")
|
||||
createMutex := kernel32.NewProc("CreateMutexW")
|
||||
// CreateMutexW(lpSecurityAttributes=NULL, bInitialOwner=FALSE, lpName)
|
||||
h, _, callErr := createMutex.Call(0, 0, uintptr(unsafe.Pointer(namePtr)))
|
||||
if h == 0 {
|
||||
return true // couldn't create the mutex → don't block the app
|
||||
}
|
||||
if errors.Is(callErr, windows.ERROR_ALREADY_EXISTS) {
|
||||
focusExistingWindow()
|
||||
return false
|
||||
}
|
||||
return true
|
||||
}
|
||||
|
||||
// focusExistingWindow finds the running OpsLog window by its title and restores
|
||||
// + foregrounds it. Best-effort; failures are silently ignored.
|
||||
func focusExistingWindow() {
|
||||
user32 := windows.NewLazySystemDLL("user32.dll")
|
||||
findWindow := user32.NewProc("FindWindowW")
|
||||
setForeground := user32.NewProc("SetForegroundWindow")
|
||||
showWindow := user32.NewProc("ShowWindow")
|
||||
|
||||
title, err := windows.UTF16PtrFromString("OpsLog")
|
||||
if err != nil {
|
||||
return
|
||||
}
|
||||
hwnd, _, _ := findWindow.Call(0, uintptr(unsafe.Pointer(title)))
|
||||
if hwnd == 0 {
|
||||
return
|
||||
}
|
||||
const swRestore = 9 // SW_RESTORE — un-minimise if needed
|
||||
showWindow.Call(hwnd, swRestore)
|
||||
setForeground.Call(hwnd)
|
||||
}
|
||||
+1
-1
@@ -21,7 +21,7 @@ import (
|
||||
|
||||
const (
|
||||
// appVersion is stamped on every heartbeat (and could feed the About box).
|
||||
appVersion = "0.17"
|
||||
appVersion = "0.19.5"
|
||||
|
||||
// posthogHost is the PostHog ingestion endpoint. EU cloud by default; change
|
||||
// to https://us.i.posthog.com for a US project.
|
||||
|
||||
@@ -0,0 +1,23 @@
|
||||
# Amplifiers and Switches
|
||||
|
||||
## PowerGenius XL (4O3A) amplifier
|
||||
|
||||
Direct TCP connection (Settings → PowerGenius):
|
||||
|
||||
- **Operate / Standby** and **fault** display.
|
||||
- **Fan-mode** selector (Standard / Contest / Broadcast).
|
||||
- When a Flex is connected, the amp controls + its **FWD / ID / TEMP** meters
|
||||
appear in the FlexRadio panel's Amplifier card. See [[FlexRadio]].
|
||||
|
||||
## Antenna Genius (4O3A) antenna switch
|
||||
|
||||
Over TCP / GSCP — a docked **A/B antenna-switch** widget:
|
||||
|
||||
- One row per configured antenna, with a **Port A** and **Port B** button.
|
||||
- Colours: green = selected on port A, blue = selected on port B, red (pulsing) =
|
||||
that port is transmitting. Clicking a selected port deselects it (→ None).
|
||||
- **Band filter** (funnel icon in the header): shows only the antennas configured
|
||||
for the current band, like the native app. Toggle it off to see all antennas.
|
||||
Antennas with an unknown band mask are always shown.
|
||||
|
||||
Configure the host / password in Settings → Antenna Genius.
|
||||
@@ -0,0 +1,36 @@
|
||||
# Audio and Keyers
|
||||
|
||||
## CW keyer
|
||||
|
||||
A CW keyer with **macros** and F-key macros. The keyer **engine** is selectable
|
||||
(Settings → CW Keyer):
|
||||
|
||||
- **WinKeyer** — K1EL WK1/2/3 over a COM port.
|
||||
- **Icom** — the radio's own keyer over CI-V, no extra hardware. Works over the
|
||||
remote link too. (Requires the Icom CAT backend; set break-in to SEMI/FULL or
|
||||
the rig keys the sidetone but stays in RX.)
|
||||
- **TCI** — for TCI backends.
|
||||
|
||||
## Digital Voice Keyer (DVK)
|
||||
|
||||
Record **F1–F6** voice messages and transmit them. Set the audio devices, PTT
|
||||
method and gains in Settings → Audio.
|
||||
|
||||
- **PTT** method: CAT, RTS, DTR, or none (VOX).
|
||||
- **Test PTT** keys the rig briefly. On CAT/OmniRig the key is held ~1.5 s so the
|
||||
transmit command is actually sent (OmniRig is asynchronous and coalesces rapid
|
||||
writes).
|
||||
|
||||
## QSO audio recording
|
||||
|
||||
Continuous rolling capture. On **Log QSO** the contact is saved to a per-QSO WAV
|
||||
(`CALL_YYYYMMDD_HHMMSS.wav`), mixing RX + mic. Configure the recordings folder,
|
||||
format (WAV / MP3), pre-roll and gains in Settings → Audio.
|
||||
|
||||
## RX audio monitor (USB rigs)
|
||||
|
||||
Settings → Audio → **Listen to radio** pipes the rig's received audio (its "USB
|
||||
Audio CODEC" input) through your speakers, so you hear the radio inside OpsLog.
|
||||
**Talk to radio** keys PTT and pipes your mic to the rig's audio input. (Network
|
||||
audio for remote Icom is a work in progress — see
|
||||
[[Remote Icom over the Internet]].)
|
||||
@@ -0,0 +1,95 @@
|
||||
# Awards
|
||||
|
||||
OpsLog has a flexible awards engine. Award **definitions** and reference lists are
|
||||
shared **globally** across profiles.
|
||||
|
||||
## Built-in awards
|
||||
|
||||
DXCC, WAS / WAZ / WAC, WPX, IOTA / POTA / SOTA / WWFF, **DDFM** (French
|
||||
departments), and more — tracked **worked / confirmed / validated** by band and
|
||||
mode.
|
||||
|
||||
## How matching works
|
||||
|
||||
An award scans a **QSO field** (state, QTH, address, notes, …) for a reference,
|
||||
using one **Match by** mode:
|
||||
|
||||
- **code** — the field value *is* the reference (e.g. state = `NY`).
|
||||
- **description** — the reference's **name** appears in the field (substring,
|
||||
space-sensitive — "Hongkong" won't match "Hong Kong").
|
||||
- **pattern** — the field is tested against a regex.
|
||||
|
||||
Plus a **leading/trailing** strip, a **prefix** prepended to found references, a
|
||||
**dynamic** mode (any value counts, like POTA), and the **fallback searches**
|
||||
described below.
|
||||
|
||||
### The five rules to remember
|
||||
|
||||
1. **Every regex is case-insensitive.** Award and per-reference patterns match
|
||||
regardless of case (log fields are typed however the operator felt) — so
|
||||
`\bTok[iy]o\b` catches `TOKYO`, `Tokyo` and even `TOKIO`. Set your own flag
|
||||
group (e.g. `(?s)`) to override.
|
||||
|
||||
2. **A reference's own `Pattern` is opt-in extra recognition.** On the
|
||||
*References* tab each reference has a **Pattern (regex)** field. Fill it to
|
||||
recognise a reference by more than its name — spelling variants, or the
|
||||
**cities/terms** that imply it. Leave it empty and the reference is matched by
|
||||
name only. Example — Jiangsu (China) carries the cities in its own regex:
|
||||
`\b(Jiangyin|Wuxi|Suzhou|Nanjing|Changzhou)\b`.
|
||||
|
||||
3. **`description` also runs the per-reference regexes** (on the same field).
|
||||
A description search looks for the reference *name* **OR** fires each
|
||||
reference's own Pattern — so a description award over the QTH/address will
|
||||
auto-match your city regexes with no extra rule. (A reference with an empty
|
||||
Pattern stays name-only.)
|
||||
|
||||
4. **OR rules are ordered fallbacks (first hit wins).** The **Fallback searches**
|
||||
section adds extra searches tried **in order, only while nothing has matched
|
||||
yet** — the first that finds a reference wins and the rest are skipped
|
||||
(short-circuit, like a chain of *else-if*). So a province already resolved by
|
||||
name isn't also re-tagged, possibly differently, by a later city regex.
|
||||
|
||||
5. **Scope is checked first — a manual reference does not bypass it.** DXCC
|
||||
filter, valid bands / modes / emission and the valid-from/to dates gate every
|
||||
QSO before any reference is looked at. A 17 m QSO can't count for an award
|
||||
whose valid bands are 80/40/20/15/10 m, even if you assign the reference by
|
||||
hand. Widen the award's bands if it *should* count.
|
||||
|
||||
> **Tip — Hong Kong / Macau style mismatches:** if the log says "Hong Kong" but
|
||||
> the reference name is "Hongkong", either fix the name, or give that reference a
|
||||
> **Pattern** like `\bHong ?Kong\b`. Thanks to rule 3 the pattern now works even
|
||||
> for a *description* award — no separate rule needed.
|
||||
|
||||
### Worked example — Worked All Provinces of China (WAPC)
|
||||
|
||||
A custom province award where the log rarely spells the province out (it names a
|
||||
*city*). The clean setup:
|
||||
|
||||
- **Primary:** *Search in* **QTH**, *Match by* **description**.
|
||||
- **Fallback search:** *Search in* **address**, *Match by* **description**.
|
||||
- On the *References* tab, give each province a Pattern listing its cities.
|
||||
|
||||
Now a QSO is resolved by the province **name** if present, else by a **city**
|
||||
regex — first in the QTH, then in the address. First hit wins.
|
||||
|
||||
## Live detection & manual refs
|
||||
|
||||
- References are detected **live** as you enter a callsign.
|
||||
- You can **manually assign** a reference to a QSO (the *Award Refs* tab of the
|
||||
QSO editor). It's stored in an ADIF extra (`APP_OPSLOG_AWARDREFS`) so it
|
||||
survives export/import — see [[Import and Export ADIF]] — and is honoured
|
||||
everywhere (award panel, grid columns, totals). For a list-backed award the
|
||||
assigned reference must still be a **valid, listed** reference, and the QSO
|
||||
must be **in scope** (rule 5) for it to count.
|
||||
|
||||
## Reference lists & display
|
||||
|
||||
- **Import reference lists** for totals and names.
|
||||
- Per award, choose what the Recent-QSOs column shows: **reference**, **name**,
|
||||
or **both**. Award columns are opt-in per the Columns picker
|
||||
([[Recent QSOs and Filters]]).
|
||||
|
||||
## Rescan
|
||||
|
||||
**Rescan** re-pulls the logbook and recomputes — it picks up fresh LoTW / QRZ /
|
||||
eQSL confirmations (see [[QSL Management]]).
|
||||
@@ -0,0 +1,49 @@
|
||||
# CAT Control
|
||||
|
||||
OpsLog has **four native CAT backends** (Settings → CAT). Each auto-reconnects
|
||||
and connects *non-blocking*, so a powered-off radio never freezes the app.
|
||||
|
||||
| Backend | Use it for |
|
||||
|---------|-----------|
|
||||
| **OmniRig** | Any OmniRig-supported rig (Rig 1 / Rig 2, hot-swap). |
|
||||
| **FlexRadio (SmartSDR)** | FlexRadio 6000/8000 over the TCP API. → [[FlexRadio]] |
|
||||
| **Icom CI-V** | Any Icom over **USB** *or* over the internet via its **LAN server**. → [[Icom]] · [[Remote Icom over the Internet]] |
|
||||
| **TCI** | SunSDR / ExpertSDR2 and any TCI (WebSocket) server. |
|
||||
|
||||
Once connected, frequency / band / mode follow the radio, clicking a cluster spot
|
||||
tunes the rig, and (for Flex) cluster spots can be pushed to the panadapter.
|
||||
|
||||
## OmniRig
|
||||
|
||||
Pick **Rig 1** or **Rig 2** (the two OmniRig slots). Configure the actual COM
|
||||
port / baud in OmniRig's own settings. Works with anything OmniRig supports; PTT
|
||||
keying via CAT is supported where the rig's OmniRig profile exposes it.
|
||||
|
||||
## FlexRadio
|
||||
|
||||
Enter the radio's IP (UDP discovery assists). You get a full SmartSDR-style
|
||||
control tab — see **[[FlexRadio]]**.
|
||||
|
||||
## Icom CI-V (USB)
|
||||
|
||||
- **Rig model** — pick your model from the dropdown; it sets the correct **CI-V
|
||||
address** automatically (or choose *Other* and type the hex address).
|
||||
- **COM port** + **baud** must match the radio (set *CI-V USB Echo Back* **OFF**
|
||||
on the rig).
|
||||
- The model choice also tailors the console (e.g. attenuator steps: 20 dB on an
|
||||
IC-7300, 6/12/18 dB on an IC-7610).
|
||||
|
||||
Full console details: **[[Icom]]**.
|
||||
|
||||
## TCI
|
||||
|
||||
Enter the TCI host + port (default 40001). Gives freq / mode / PTT / split and,
|
||||
optionally, panorama spots.
|
||||
|
||||
## Notes
|
||||
|
||||
- The **digital sub-mode** (FT4 vs FT8) is inferred from the frequency.
|
||||
- **Per-band Flex RX/TX antennas** can be configured and are applied
|
||||
automatically on band change (Settings → FlexRadio).
|
||||
- Split, RIT/XIT and other rig-specific features are exposed on each backend's
|
||||
control tab where supported.
|
||||
@@ -0,0 +1,27 @@
|
||||
# Contest Logging
|
||||
|
||||
**Contest tab.** Pick a contest and an exchange, and OpsLog handles the rest.
|
||||
|
||||
## Setup
|
||||
|
||||
- **Contest** — from the built-in ADIF `CONTEST_ID` list.
|
||||
- **Exchange** — a **running serial** (auto-incrementing) or a **fixed exchange**.
|
||||
- **Window** — start / end times; QSOs outside are flagged.
|
||||
|
||||
## While operating
|
||||
|
||||
- OpsLog auto-fills `CONTEST_ID` and the **sent / received serials** (`STX` /
|
||||
`SRX`).
|
||||
- **Dupe** detection flags a call already worked in the contest.
|
||||
- A live **scoreboard** tracks your progress.
|
||||
|
||||
## Export
|
||||
|
||||
Export the contest log to **Cabrillo** for submission (Recent QSOs → export), or
|
||||
to ADIF. See [[Import and Export ADIF]].
|
||||
|
||||
## Tip
|
||||
|
||||
Use **Bulk edit field** (right-click in Recent QSOs) to fix a contest field
|
||||
across many QSOs at once — e.g. set `CONTEST_ID` or an exchange string on an
|
||||
imported batch.
|
||||
@@ -0,0 +1,40 @@
|
||||
# DX Cluster and Spots
|
||||
|
||||
## Servers
|
||||
|
||||
Add multiple cluster servers (Settings). They auto-reconnect; one is the
|
||||
**master** used for sending commands. The Cluster tab and the Main-view cluster
|
||||
pane share the same live feed.
|
||||
|
||||
## Filter sidebar
|
||||
|
||||
A show/hide **filter sidebar** (shared by the Cluster tab and the Main pane):
|
||||
|
||||
- **Callsign** search, **hide worked**, **group duplicates**.
|
||||
- Filter by **band / mode / status / source**.
|
||||
|
||||
## Per-spot status and tuning
|
||||
|
||||
Each spot is coloured by **status** relative to your log:
|
||||
|
||||
- **new** (entity never worked), **new-band**, **new-slot**, **worked**.
|
||||
|
||||
Click a spot to **tune the rig** (fills the callsign into the entry strip). A
|
||||
multi-band **Band Map** shows panadapter-style strips per band.
|
||||
|
||||
**POTA** spots are tagged with their park reference (via `api.pota.app`).
|
||||
|
||||
## Sending a spot
|
||||
|
||||
Use the **Send Spot** window to announce a DX spot on the master cluster:
|
||||
callsign + frequency + a message. The frequency defaults to the **live CAT
|
||||
frequency** (full resolution, including sub-kHz).
|
||||
|
||||
## Spot alerts
|
||||
|
||||
**Tools → Alert management** — Log4OM-style alert rules on **call / country /
|
||||
band / mode / spotter**, with **sound**, **visual** and **e-mail** notification.
|
||||
Active alerts appear as a discreet bell in the entry strip; click it for the
|
||||
list. Alerts are kept briefly and only shown when active.
|
||||
|
||||
See also: [[Maps and Antennas]] for turning the beam to a spot.
|
||||
@@ -0,0 +1,54 @@
|
||||
# FlexRadio
|
||||
|
||||
When the CAT backend is a **FlexRadio (SmartSDR)**, OpsLog shows a full
|
||||
SmartSDR-style control panel (as a Main-view pane or the FlexRadio tab). It talks
|
||||
the radio's TCP API directly and streams live meters over UDP (VITA-49).
|
||||
|
||||
## Slices (multi-slice)
|
||||
|
||||
FlexRadios can run several receiver slices (A/B/C/D…). OpsLog shows **every
|
||||
in-use slice** as a row of buttons under the header:
|
||||
|
||||
- Click a slice to make it the **active** slice — the main frequency, mode, DSP
|
||||
and spot-clicks all follow it.
|
||||
- Click a slice's **TX** badge to move the transmitter onto it.
|
||||
- **Split** is detected only when the TX slice and a same-band RX slice form a
|
||||
genuine split; independent slices on other bands are not shown as split.
|
||||
|
||||
Everything you do targets the **active** slice, so a second slice monitoring
|
||||
another band never hijacks your main frequency.
|
||||
|
||||
## Header
|
||||
|
||||
Model + RX/TX state, plus compact **PA voltage** and **PA temperature** readouts
|
||||
(temperature turns amber/red as it climbs).
|
||||
|
||||
## Transmit
|
||||
|
||||
RF power, tune power, **TUNE**, **MOX**, **SPLIT**, speech processor (NOR / DX /
|
||||
DX+), VOX (+ level + delay), monitor (+ level), mic gain, **TX filter** low/high
|
||||
cut, and the **mic profile** selector. On CW the panel switches to keyer controls
|
||||
(speed / pitch / break-in / sidetone / filter).
|
||||
|
||||
## Receive (active slice)
|
||||
|
||||
RX/TX antenna, AGC mode + threshold, audio level, and the noise/notch filters:
|
||||
**NB**, **WNB** (wideband noise blanker), **NR**, **ANF**, and **APF** on CW —
|
||||
each a toggle plus level. Filter-width presets per mode.
|
||||
|
||||
## Amplifier (PowerGenius XL)
|
||||
|
||||
If a PowerGenius XL is detected, its **OPERATE / STANDBY**, **fan mode** and
|
||||
**fault** show in an Amplifier card, with the amp's FWD / ID / TEMP meters
|
||||
inline. See [[Amplifiers and Switches]].
|
||||
|
||||
## Meters
|
||||
|
||||
Live UDP meters under the slices: **S-meter** (S-units, click → fill RST),
|
||||
**forward power** (W), **SWR**, **mic** level (−40…+10 dB, red = overdrive) and
|
||||
**compression**. PA voltage and temperature are in the header.
|
||||
|
||||
## Antennas per band
|
||||
|
||||
Configure Flex **RX/TX antennas per band** (Settings → FlexRadio); OpsLog applies
|
||||
them automatically on band change.
|
||||
@@ -0,0 +1,59 @@
|
||||
# Getting Started
|
||||
|
||||
This walks you from a fresh install to your first logged QSO.
|
||||
|
||||
## 1. Set your station
|
||||
|
||||
**Settings → Station**: enter your **callsign**, **grid locator** and **name**.
|
||||
These feed callsign lookups, the map, awards, the QSL card and the "my station"
|
||||
ADIF fields on every QSO.
|
||||
|
||||
## 2. (Optional) Connect a radio
|
||||
|
||||
**Settings → CAT**, pick a backend and fill its fields — see [[CAT Control]].
|
||||
Once connected, the frequency, band and mode fill in automatically as you tune,
|
||||
and clicking a cluster spot tunes the rig.
|
||||
|
||||
You can log perfectly well **without** a radio — just type the band, mode and
|
||||
frequency.
|
||||
|
||||
## 3. The entry strip
|
||||
|
||||
The strip across the top is the heart of OpsLog (Log4OM-style):
|
||||
|
||||
- **Callsign** — type it and the contacted entity's **flag** appears next to the
|
||||
RST fields; the country, CQ/ITU zones and continent resolve offline from
|
||||
`cty.dat`. If QRZ/HamQTH lookup is configured, name / QTH / grid auto-fill and
|
||||
a photo shows in the F2 tab.
|
||||
- **RST sent / rcvd**, **Name**, **QTH**, **Grid**.
|
||||
- **Band / Mode / Frequency** (TX and, for split, RX).
|
||||
- **Start / End time**, **Comment / Note**.
|
||||
|
||||
Press **Enter** in any text field to **log** the QSO. The contact drops into
|
||||
**Recent QSOs** below.
|
||||
|
||||
> Mode comes from the radio; the digital sub-mode (FT4 vs FT8) is inferred from
|
||||
> the frequency.
|
||||
|
||||
## 4. Look around
|
||||
|
||||
- **Recent QSOs** — your log; double-click a row to edit every field.
|
||||
See [[Recent QSOs and Filters]].
|
||||
- **Worked-before matrix** — as you type a call, see if/when you worked that
|
||||
entity, per band/mode slot.
|
||||
- **Main view** — two configurable panes (Settings → General → *Main view*): a
|
||||
great-circle map, the cluster, the FlexRadio or Icom console, Net control, and
|
||||
more. See [[Maps and Antennas]].
|
||||
|
||||
## 5. Profiles
|
||||
|
||||
Every setting is **per-profile**. A profile can log to the local SQLite file or
|
||||
a shared **MySQL** database (multi-operator). Create one per call / station /
|
||||
event. See [[Profiles and Databases]].
|
||||
|
||||
## Next steps
|
||||
|
||||
- Chase spots → [[DX Cluster and Spots]]
|
||||
- Track awards → [[Awards]]
|
||||
- Send confirmations → [[QSL Management]]
|
||||
- Design a card → [[QSL Card Designer]]
|
||||
@@ -0,0 +1,41 @@
|
||||
# OpsLog
|
||||
|
||||
A modern, fast ham-radio logger for **Windows** — Log4OM-style entry, real-time
|
||||
CAT for **OmniRig**, native **FlexRadio/SmartSDR**, native **Icom CI-V** (USB
|
||||
*and* remote-over-internet, replacing RS-BA1) and **TCI** (SunSDR / Expert
|
||||
Electronics), a DX cluster with spot alerts, awards tracking, maps, contest
|
||||
logging, QSL management and a QSL-card designer.
|
||||
|
||||
Built with **Wails v2** (Go backend + React/TypeScript frontend), **pure Go**
|
||||
(no CGO). SQLite holds the configuration; the logbook can be the local SQLite
|
||||
file *or* a **shared MySQL** database so several operators run one log. Fully
|
||||
themeable and bilingual (English / French).
|
||||
|
||||
Developed by **F4BPO**.
|
||||
|
||||
## New here? Read these first
|
||||
|
||||
1. **[[Installation]]** — download / build and first launch.
|
||||
2. **[[Getting Started]]** — the entry strip, logging your first QSO, choosing a
|
||||
profile.
|
||||
3. **[[CAT Control]]** — connect your radio (OmniRig, FlexRadio, Icom, TCI).
|
||||
|
||||
## What OpsLog does
|
||||
|
||||
| Area | Pages |
|
||||
|------|-------|
|
||||
| Enter and manage QSOs | [[Logging Basics]] · [[Recent QSOs and Filters]] · [[Import and Export ADIF]] |
|
||||
| Control your radio | [[CAT Control]] · [[FlexRadio]] · [[Icom]] · [[Remote Icom over the Internet]] |
|
||||
| Chase DX | [[DX Cluster and Spots]] · [[Maps and Antennas]] |
|
||||
| Station hardware | [[Amplifiers and Switches]] · [[Audio and Keyers]] |
|
||||
| Events & contests | [[Contest Logging]] · [[Net Control]] · [[Multi-Operator Live Status]] |
|
||||
| Confirmations | [[Awards]] · [[QSL Management]] · [[QSL Card Designer]] |
|
||||
| Configuration | [[Settings and Data]] · [[Security]] · [[Profiles and Databases]] |
|
||||
| Something wrong? | [[Troubleshooting]] |
|
||||
|
||||
## Design in one line
|
||||
|
||||
Everything you configure (settings, profiles, rigs, cluster nodes, award lists,
|
||||
QSL templates, lookup cache) lives in a **local SQLite** file so the UI is
|
||||
instant. Only the **QSOs** live where the active profile points them — local
|
||||
SQLite or a shared MySQL. See [[Profiles and Databases]].
|
||||
@@ -0,0 +1,55 @@
|
||||
# Icom
|
||||
|
||||
When the CAT backend is **Icom CI-V** (USB or network), OpsLog shows a full
|
||||
RS-BA1-style console — the same panel whether you're on USB or remote.
|
||||
|
||||
For setup, see [[CAT Control]]; for the internet link, see
|
||||
[[Remote Icom over the Internet]].
|
||||
|
||||
## Choosing your model
|
||||
|
||||
Pick your model from the **Rig model** dropdown in Settings → CAT — it sets the
|
||||
CI-V address and tailors the console to the radio (e.g. attenuator steps).
|
||||
The model is also auto-detected from the radio's CI-V ID.
|
||||
|
||||
## Console
|
||||
|
||||
- **Twin VFO readout** (MAIN / SUB): big tabular frequency, mode badge, band, and
|
||||
RIT/ΔTX offset, with a **mode-button row** (SSB / CW / RTTY / PSK / AM / FM).
|
||||
- **Spectrum scope + waterfall**: ON/OFF, CTR/FIX, double-click to tune, and
|
||||
**◀ ⊙ ▶** to centre the scope on the current frequency (±50 kHz) and pan.
|
||||
- **Live meters** always visible: S-meter (click → fill RST), power in watts, SWR.
|
||||
- **Receive DSP:** AF / RF gain, squelch, AGC, preamp, **attenuator** (steps match
|
||||
the model — e.g. 20 dB on an IC-7300, 6/12/18 dB on an IC-7610), filter
|
||||
(FIL1/2/3), NB, NR, ANF, and — **on CW only** — the **APF** (audio peak filter).
|
||||
- **Passband / notch:** Twin PBT (inner / outer) and manual notch + position.
|
||||
- **Transmit:** RF power, MOX, TUNE, **split with automatic offset** (+5 kHz SSB /
|
||||
+1 kHz CW), monitor. On **voice modes only**: mic gain, compressor, VOX (+ gain
|
||||
+ anti-VOX). Controls that don't apply to the current mode are hidden.
|
||||
- **Bands & antenna:** one-touch band buttons, ANT1/ANT2.
|
||||
- **Clarifiers:** RIT and ΔTX, wheel / ± tuning (Ctrl + ← / → nudges RIT).
|
||||
|
||||
## Power ON / OFF
|
||||
|
||||
- **Network:** ON and OFF buttons are shown — the radio's LAN server answers even
|
||||
in standby, so ON works.
|
||||
- **USB:** the buttons are **hidden**. Over USB the CI-V interface is unpowered
|
||||
while the rig is off, so a power-ON command can't reach it — turn the radio on
|
||||
physically.
|
||||
|
||||
The app never wakes the rig on connect (manual by design).
|
||||
|
||||
## CW keying
|
||||
|
||||
CW can run through the **radio's own keyer** over CI-V — no extra hardware, and
|
||||
it works over the remote link too. See [[Audio and Keyers]].
|
||||
|
||||
## Model-specific notes
|
||||
|
||||
- **IC-7300 / IC-705 / IC-9100:** single-receiver, single-step attenuator
|
||||
(20 dB); the IC-9100 is USB-only (no LAN server).
|
||||
- **IC-7610 / IC-9700:** dual scope (main/sub); stepped attenuator; LAN server
|
||||
for remote.
|
||||
- If the **scope is blank on a single-scope rig run at a non-default CI-V
|
||||
address**, OpsLog now detects the model from the CI-V ID, not the configured
|
||||
address, so it decodes single-scope frames correctly.
|
||||
@@ -0,0 +1,32 @@
|
||||
# Import and Export ADIF
|
||||
|
||||
OpsLog is **ADIF 3.1.7 compliant**: a full field dictionary, 30 promoted columns,
|
||||
a generic "extra fields" editor for anything not promoted, and standard/all
|
||||
export modes.
|
||||
|
||||
## Import
|
||||
|
||||
Import an `.adi` / `.adif` file into the active profile's logbook. On import,
|
||||
OpsLog parses every field, maps standard fields to columns and keeps unknown but
|
||||
valid ADIF fields in a per-QSO **extras** store (editable later). Country / zones
|
||||
are enriched from `cty.dat` where missing.
|
||||
|
||||
## Export
|
||||
|
||||
- **Whole log**, **selected rows**, or the **filtered view** (no limit) — see
|
||||
[[Recent QSOs and Filters]].
|
||||
- **Standard** mode exports the common promoted fields; **All** mode also exports
|
||||
every extra field.
|
||||
- **Cabrillo** export for contest submission.
|
||||
|
||||
## Round-trip safety
|
||||
|
||||
Award references you assign manually are stored in an ADIF extra field
|
||||
(`APP_OPSLOG_AWARDREFS`), so exporting your full log and re-importing it does not
|
||||
lose your award-reference assignments.
|
||||
|
||||
## Tips
|
||||
|
||||
- To move a batch of QSOs between logs, export selected → import into the other
|
||||
profile.
|
||||
- Use **Find duplicates** (Tools) after importing to catch overlaps.
|
||||
@@ -0,0 +1,44 @@
|
||||
# Installation
|
||||
|
||||
OpsLog is a single Windows executable — no installer, no runtime to add. Pure Go
|
||||
+ an embedded WebView2 (present on Windows 10/11 by default).
|
||||
|
||||
## Download and run
|
||||
|
||||
1. Grab the latest `OpsLog.exe` from the project's **Releases** page.
|
||||
2. Put it in its own folder (it will create a `data/` folder next to itself).
|
||||
3. Double-click to run. On first launch you pick a **language** (English /
|
||||
French) and OpsLog creates its local database.
|
||||
|
||||
> **Where is my data?** A `data/` folder is created next to the executable,
|
||||
> holding the SQLite config + local logbook, QSL templates, recordings and
|
||||
> backups. Keep the exe and `data/` together, or back up `data/`. See
|
||||
> [[Settings and Data]].
|
||||
|
||||
## Building from source (developers)
|
||||
|
||||
OpsLog is built with **Wails v2.11**.
|
||||
|
||||
```bash
|
||||
# Dev — Vite hot-reload; Go methods reachable at http://localhost:34115
|
||||
wails dev
|
||||
|
||||
# Production build → build/bin/OpsLog.exe
|
||||
wails build
|
||||
|
||||
# Regenerate Go↔TS bindings after changing exported App methods
|
||||
wails generate module
|
||||
```
|
||||
|
||||
Prerequisites: Go, Node.js, and the Wails CLI (`~/go/bin/wails.exe`). No CGO /
|
||||
C toolchain is needed.
|
||||
|
||||
## First-run checklist
|
||||
|
||||
- **Settings → General** — language, theme, and the two Main-view panes.
|
||||
- **Settings → Station** — your callsign, grid, name (used for lookups, awards,
|
||||
QSL cards and the map).
|
||||
- **Settings → CAT** — connect your radio ([[CAT Control]]).
|
||||
- **Settings → Lookup** — QRZ.com / HamQTH credentials for callsign lookup.
|
||||
|
||||
Continue with **[[Getting Started]]**.
|
||||
@@ -0,0 +1,45 @@
|
||||
# Logging Basics
|
||||
|
||||
## The entry strip
|
||||
|
||||
The entry strip logs a QSO from any `<input>` inside it — press **Enter** to
|
||||
save. Fields: callsign, RST tx/rx, name, QTH, grid, band, mode, TX/RX frequency
|
||||
(split), start/end time, comment and note.
|
||||
|
||||
- **Callsign** drives everything: the **flag**, offline DXCC resolution (country,
|
||||
CQ/ITU zones, continent) from `cty.dat` including `/MM` `/AM` `/B` and call-area
|
||||
handling (`/8`, `/W6`), plus **ClubLog** DXpedition date overrides.
|
||||
- **Callsign lookup** (QRZ.com / HamQTH) fills name / QTH / grid and shows the
|
||||
photo and a QRZ.com tab. Configure it in Settings → Lookup.
|
||||
- **ESC** clears the callsign (and stops CW).
|
||||
|
||||
## Editing a QSO
|
||||
|
||||
Double-click any row in **Recent QSOs** (or Worked-before) to open the full
|
||||
editor — every ADIF field across tabs: QSO info, contacted station's details,
|
||||
award refs, QSL info, contest, sat/prop, my station, and a generic **extra
|
||||
fields** editor for any ADIF field not promoted to a column.
|
||||
|
||||
## Bulk operations
|
||||
|
||||
Select rows in Recent QSOs, right-click:
|
||||
|
||||
- **Fix country & zones** from `cty.dat`, or **update from QRZ / ClubLog**.
|
||||
- **Bulk edit field** — set one field across many QSOs (QSL/upload status, my
|
||||
station, contest, propagation, contacted-station refs, comment…). Great for
|
||||
flipping a batch to *Requested* before an upload.
|
||||
- **Send to** a QSL service, **export** selected / filtered to ADIF or Cabrillo,
|
||||
**delete**.
|
||||
|
||||
## Find duplicates
|
||||
|
||||
**Tools → Find duplicates** groups QSOs by same **call + band + mode** (optionally
|
||||
same day or same minute) and lets you pick which to delete.
|
||||
|
||||
## Notes
|
||||
|
||||
- **Worked-before matrix** shows prior contacts with the entity per band/mode
|
||||
slot as you type.
|
||||
- Awards references are detected **live** as you enter a call (see [[Awards]]).
|
||||
|
||||
See also: [[Recent QSOs and Filters]] · [[Import and Export ADIF]]
|
||||
@@ -0,0 +1,38 @@
|
||||
# Maps and Antennas
|
||||
|
||||
## Main view
|
||||
|
||||
The Main view is **two configurable panes** (per profile, Settings → General →
|
||||
*Main view*). Choose from: great-circle map, locator (street) map, the cluster
|
||||
grid, the worked-before grid, recent QSOs, the **FlexRadio** controls, the
|
||||
**Icom** console, or the **Net control** panel.
|
||||
|
||||
## Great-circle map
|
||||
|
||||
- Short/long-path **distance & azimuth** to the worked station.
|
||||
- Selectable, **key-free** basemaps: Light / Voyager / Street / Satellite (all
|
||||
labelled).
|
||||
- The **antenna beam lobe(s)** are drawn from the rotor azimuth.
|
||||
|
||||
## Locator (street) map
|
||||
|
||||
An OSM street map centred on the contacted grid square — handy for local /
|
||||
portable contacts. No API key.
|
||||
|
||||
## Rotor compass
|
||||
|
||||
An azimuthal-equidistant **click-to-turn** compass driven by **PstRotator**. The
|
||||
current heading and target are shown; click a bearing to turn the rotor.
|
||||
|
||||
## Ultrabeam
|
||||
|
||||
Ultrabeam antennas are supported with three modes — **Normal**, **180° reverse**,
|
||||
**Bidirectional**:
|
||||
|
||||
- The **radiating direction** is shown in green and the **mechanical boom** in
|
||||
grey, on both the compass and the map, so you always know where the antenna
|
||||
actually points.
|
||||
- The antenna **follows the rig frequency** (band change → retune), and retunes
|
||||
immediately when you click a spot.
|
||||
|
||||
Related hardware: [[Amplifiers and Switches]] (Antenna Genius switch).
|
||||
@@ -0,0 +1,42 @@
|
||||
# Multi-Operator Live Status
|
||||
|
||||
For a **multi-op special-event call** on a shared MySQL logbook (e.g. TM74TFR),
|
||||
OpsLog can publish who is on the air, on which band/mode/frequency, as a live
|
||||
page you embed on the station's **QRZ.com** bio.
|
||||
|
||||
## Enable it
|
||||
|
||||
1. Point the profile's logbook at a **shared MySQL** database
|
||||
([[Profiles and Databases]]).
|
||||
2. **Settings → General → Publish live operator status.**
|
||||
|
||||
Each OpsLog instance then heartbeats its current activity (operator call, band,
|
||||
frequency, mode) into a `live_status` table every ~15 s. OpsLog only **writes**
|
||||
to the database — it is not a web server.
|
||||
|
||||
## The web page
|
||||
|
||||
A small PHP renderer, `docs/livestatus/tm74-status.php`, reads that table and
|
||||
produces a live page/image. Put it on **your own** web server (the one reachable
|
||||
from the internet):
|
||||
|
||||
1. Edit the credentials at the top: `$DB_HOST`, `$DB_PORT`, `$DB_NAME`,
|
||||
`$DB_USER`, `$DB_PASS` — pointing at the **same** MySQL as OpsLog's logbook.
|
||||
2. Embed it on QRZ (QRZ strips `<script>`/`<iframe>`, so use an image):
|
||||
|
||||
```html
|
||||
<img src="https://your-server/tm74-status.php?img=1">
|
||||
```
|
||||
|
||||
or link the real-time page: `https://your-server/tm74-status.php`.
|
||||
|
||||
## Troubleshooting the PHP page
|
||||
|
||||
- **`Connection refused`** — MySQL is refusing the connection. Most common cause:
|
||||
the server's `bind-address` is `127.0.0.1` (localhost only). Set it to the LAN
|
||||
IP / `0.0.0.0`, grant the `opslog` user for the web server's IP, and open the
|
||||
firewall.
|
||||
- **Runs on a non-standard MySQL port** — set `$DB_PORT` and pass it as the 5th
|
||||
`mysqli` argument (the shipped script already does).
|
||||
- Redeploy the current `tm74-status.php` if you edited an old copy — the shipped
|
||||
version fails gracefully instead of throwing a PHP fatal error.
|
||||
@@ -0,0 +1,30 @@
|
||||
# Net Control
|
||||
|
||||
**Directed-net logging** (Tools → Net) — run a directed net or round-table and
|
||||
log the whole thing at once, Log4OM-style.
|
||||
|
||||
## How it works
|
||||
|
||||
- **Roster** (right) — the net's registered stations, stored globally in
|
||||
`nets.json` (shared across profiles). Add contacts with a QRZ/HamQTH prefill.
|
||||
- **On-air** (left) — the active session (in memory): put a station on the air
|
||||
(check it in), and log the whole net when done.
|
||||
- Frequency / band / mode of each logged QSO come from **live CAT** at log time
|
||||
(falling back to the last known values if CAT is off).
|
||||
|
||||
## Working a net
|
||||
|
||||
1. Open / create a net and **Open** it.
|
||||
2. Double-click a roster station (or use *Put on air*) to put it on the air —
|
||||
this starts its QSO (time on).
|
||||
3. Double-click an on-air row to open the full QSO editor (edit any field).
|
||||
4. **Log & end** a station to write its QSO to the logbook (time off = now).
|
||||
|
||||
## Worked-before
|
||||
|
||||
Click a station (on air or in the roster) to see prior contacts with it in the
|
||||
**worked-before** panel below the on-air column. The panel height is adjustable
|
||||
(drag its top edge).
|
||||
|
||||
> The active session is in-memory only — closing the app mid-net drops
|
||||
> un-logged on-air stations.
|
||||
@@ -0,0 +1,35 @@
|
||||
# Profiles and Databases
|
||||
|
||||
## Profiles
|
||||
|
||||
Every setting in OpsLog is **per-profile**: station identity, CAT, lookup, QSL
|
||||
defaults, awards display, antennas, and which logbook to use. Create one profile
|
||||
per callsign / station / event.
|
||||
|
||||
Switch or manage profiles in Settings. The active profile decides which logbook
|
||||
your QSOs go to.
|
||||
|
||||
## Config vs. logbook — two different stores
|
||||
|
||||
| Store | What | Where |
|
||||
|-------|------|-------|
|
||||
| **Config** | settings, profiles, rigs/antennas, cluster nodes, lookup cache, award lists, QSL templates | always the **local SQLite** file under `data/` |
|
||||
| **Logbook** | your QSOs | where the active profile points — local SQLite **or** shared MySQL |
|
||||
|
||||
Keeping config local means the UI is instant even when the logbook is a far-away
|
||||
MySQL server.
|
||||
|
||||
## Shared MySQL logbook (multi-operator)
|
||||
|
||||
Point a profile's logbook at a **MySQL** database so several operators run **one
|
||||
log** — e.g. a multi-op special-event call. Configure the host / database /
|
||||
credentials in the profile's database settings.
|
||||
|
||||
This is also what powers [[Multi-Operator Live Status]] (each instance heartbeats
|
||||
its activity into a `live_status` table).
|
||||
|
||||
## Backups
|
||||
|
||||
Optional **database + ADIF backup at shutdown** (Settings → Backup). Regardless,
|
||||
copying the `data/` folder backs up your config and local logbook. See
|
||||
[[Settings and Data]].
|
||||
@@ -0,0 +1,35 @@
|
||||
# QSL Card Designer
|
||||
|
||||
**Tools → QSL Card Designer…** turns a few photos into a polished eQSL card.
|
||||
|
||||
## Design flow
|
||||
|
||||
1. **Pick 1–6 photos** (jpeg/png). OpsLog analyses them offline (detail /
|
||||
luminance grid) and proposes **3 designs** — callsign placed in the calmest
|
||||
zone of the best photo, operator name, CQ/ITU zones + locator line, country
|
||||
flag, the other photos as bordered inserts, and a per-QSO confirmation box.
|
||||
2. **Fine-tune**: click an element to select, drag to move; change font / style
|
||||
preset (gel gold, gel silver, classic white outline, script, flat) and the
|
||||
per-preset knobs on the right. The **QSO info box** has opacity, background
|
||||
colour, corner radius, title and text-colour controls.
|
||||
3. **Save** the template. Photos are copied into
|
||||
`data/qsl/templates/<id>/` (the originals can move afterwards). One template
|
||||
can be the **default per profile**.
|
||||
|
||||
## Sending
|
||||
|
||||
Right-click a QSO → **Send eQSL by e-mail**. The card is rendered with that QSO's
|
||||
data, rasterised to a ≤ 800 KB JPEG, archived in `data/qsl/outbox/`, and sent via
|
||||
the configured SMTP account to the address from the QRZ/HamQTH lookup. On success
|
||||
the QSO is stamped `EQSL_SENT=Y`.
|
||||
|
||||
The e-mail subject/body templates live in the designer, with
|
||||
`{CALL} {DATE} {BAND} {MODE} {MYCALL}` variables.
|
||||
|
||||
## Fonts & flags
|
||||
|
||||
Fonts: Archivo Black, Lilita One, Baloo 2, Oswald, Great Vibes, Allura (all OFL,
|
||||
embedded); Cooper Black is offered when MS Office installed it. Flags:
|
||||
flag-icons (MIT), embedded for the commonly-worked DXCC entities.
|
||||
|
||||
See also: [[QSL Management]].
|
||||
@@ -0,0 +1,44 @@
|
||||
# QSL Management
|
||||
|
||||
**Tools → QSL Manager.** Upload and download confirmations for the online QSL
|
||||
services, and manage paper QSL.
|
||||
|
||||
## Services
|
||||
|
||||
| Service | Upload | Download confirmations |
|
||||
|---------|:------:|:----------------------:|
|
||||
| **LoTW** | ✔ (via TQSL) | ✔ |
|
||||
| **QRZ.com** | ✔ | ✔ |
|
||||
| **eQSL** | ✔ | ✔ |
|
||||
| **ClubLog** | ✔ (batched ADIF) | — |
|
||||
| **HRDLog** | ✔ | — |
|
||||
| **POTA** | hunter-log sync | ✔ (park tags) |
|
||||
| **Paper** | — | set sent/received + via |
|
||||
|
||||
## Uploading
|
||||
|
||||
Pick a service, find the QSOs (by callsign or a filter), select and upload.
|
||||
**Bulk edit field** (right-click in Recent QSOs) flips a batch's upload status to
|
||||
*Requested* first, if you gate uploads that way.
|
||||
|
||||
## Downloading confirmations
|
||||
|
||||
Pick a service and a **date window** (All / Since last download / a date), then
|
||||
**Download confirmations**. OpsLog matches each confirmation to your log
|
||||
(call + minute + band + mode), stamps it (`LOTW_RCVD`, `EQSL_RCVD`,
|
||||
`QRZ download`…), and optionally **adds not-found** QSOs. Downloading
|
||||
auto-refreshes the **award** stats.
|
||||
|
||||
- **LoTW** and **paper QSL** are the award-valid confirmations for ARRL awards;
|
||||
eQSL / QRZ count only against their own confirmations.
|
||||
- **LoTW upload** goes through **TQSL** (ARRL's signer) — set the TQSL path and
|
||||
station location in Settings.
|
||||
|
||||
## E-mail eQSL
|
||||
|
||||
Right-click a QSO → **Send eQSL by e-mail** via the configured SMTP account. The
|
||||
[[QSL Card Designer]] card is rendered with that QSO's data and sent to the
|
||||
address found by the QRZ/HamQTH lookup.
|
||||
|
||||
> Outlook/Hotmail disable basic-auth SMTP — use **Gmail with an app password**,
|
||||
> or a Microsoft app password.
|
||||
@@ -0,0 +1,45 @@
|
||||
# Publishing this wiki to GitHub
|
||||
|
||||
These files are the source for the **OpsLog GitHub Wiki**. GitHub stores a wiki
|
||||
as its own git repository (`<repo>.wiki.git`), so publishing means pushing these
|
||||
`.md` files into it.
|
||||
|
||||
## Automatic — via the release script (recommended)
|
||||
|
||||
The release task (`.vscode/release.ps1`, VS Code → *Tasks: Run Task* → *Release
|
||||
OpsLog*) **publishes the wiki automatically** at the end of every release: it
|
||||
clones `github.com/GregTroar/OpsLog.wiki.git` to a temp folder, copies every page
|
||||
from this `wiki/` folder (except this guide), and pushes only if something
|
||||
changed. Auth reuses your GitHub git credential (set up by `gh auth login`).
|
||||
|
||||
**One-time:** on GitHub, open the repo → **Wiki** tab → *Create the first page* →
|
||||
Save. This initialises the wiki repo so the script's clone succeeds.
|
||||
|
||||
## Manual (if you want to push between releases)
|
||||
|
||||
```bash
|
||||
# One-time: clone the wiki repo NEXT TO the project (not inside it)
|
||||
git clone https://github.com/GregTroar/OpsLog.wiki.git
|
||||
|
||||
# Then, to update:
|
||||
cp wiki/*.md ../OpsLog.wiki/ # (skip README-PUBLISHING.md if you like)
|
||||
cd ../OpsLog.wiki
|
||||
git add . && git commit -m "Update wiki" && git push
|
||||
```
|
||||
|
||||
The pages appear immediately under the repository's **Wiki** tab.
|
||||
|
||||
## How the pages work
|
||||
|
||||
- Each `.md` file is one wiki page. The **file name** becomes the page title and
|
||||
URL: `Getting-Started.md` → page *Getting Started* at `.../wiki/Getting-Started`.
|
||||
- **`_Sidebar.md`** renders as the navigation sidebar on every page.
|
||||
- **`_Footer.md`** renders at the bottom of every page.
|
||||
- Link between pages with `[[Page Name]]` (wiki-link) or a normal relative link
|
||||
`[text](Getting-Started)`.
|
||||
- `Home.md` is the wiki landing page.
|
||||
|
||||
## Keep it in sync with the README
|
||||
|
||||
The wiki mirrors [`README.md`](../README.md). When you add a feature, update the
|
||||
matching wiki page and the README together so they don't drift.
|
||||
@@ -0,0 +1,33 @@
|
||||
# Recent QSOs and Filters
|
||||
|
||||
## The Recent QSOs grid
|
||||
|
||||
The main log table. Double-click a row to edit; right-click for bulk actions
|
||||
(see [[Logging Basics]]). Columns are configurable — click **Columns** to choose
|
||||
which are visible; your selection is saved (per profile).
|
||||
|
||||
### Award columns
|
||||
|
||||
Each defined award can show a column with the reference the QSO counts for. These
|
||||
columns are **hidden by default** and opt-in from the Columns picker — turn on
|
||||
only the awards you're chasing. Your choice persists across restarts.
|
||||
|
||||
## Advanced filter builder
|
||||
|
||||
Click the filter button to open the **QSO filter builder** (Log4OM-style):
|
||||
|
||||
- Add one or more **conditions**: *field · operator · value*.
|
||||
- Operators: equals, not-equal, contains, starts/ends with, greater/less
|
||||
(or equal), is empty, is not empty.
|
||||
- Join conditions with **ALL (AND)** or **ANY (OR)**.
|
||||
- Save named **presets** (they travel with the `data/` folder).
|
||||
- The field dropdown is sorted alphabetically to find things fast.
|
||||
|
||||
The filtered view can be exported: **selected rows** or the **whole filtered
|
||||
view** (no row limit) → ADIF or Cabrillo.
|
||||
|
||||
## Worked-before matrix
|
||||
|
||||
As you type a callsign, the worked-before grid shows prior contacts with that
|
||||
**entity**, arranged by band/mode slot, so you instantly see what's new (new
|
||||
DXCC / new band / new slot) versus already worked.
|
||||
@@ -0,0 +1,55 @@
|
||||
# Remote Icom over the Internet
|
||||
|
||||
OpsLog speaks the Icom radio's **built-in network protocol** directly, so it
|
||||
**replaces both the Icom Remote Utility and RS-BA1**. Radios with a LAN server —
|
||||
**IC-7610, IC-9700, IC-705, IC-7760, IC-905** — can be operated over the
|
||||
LAN/internet with the full [[Icom]] console.
|
||||
|
||||
> The **IC-9100 has no LAN server** — it is USB-only.
|
||||
|
||||
## On the radio (one-time)
|
||||
|
||||
In the radio's **Network** menu:
|
||||
|
||||
1. Enable the network / *Remote settings*.
|
||||
2. Set a **Network User1** name and password.
|
||||
3. Note the radio's **IP address** and its **CI-V address**.
|
||||
4. Make sure the Icom **Remote Utility is closed** on every PC — OpsLog binds the
|
||||
same local UDP ports, so they can't both run.
|
||||
|
||||
## In OpsLog
|
||||
|
||||
Settings → CAT → backend **Icom CI-V (network / remote)**:
|
||||
|
||||
- **Host** — the radio's IP or hostname.
|
||||
- **User / Password** — the Network User1 credentials.
|
||||
- **Rig model / CI-V address** — pick the model.
|
||||
|
||||
Save. OpsLog logs in, obtains a session **token** (auto-renewed so control never
|
||||
drops after ~2 minutes), opens the **CI-V tunnel**, and the whole console works
|
||||
over the net — freq / mode / DSP / TX / RIT / CW / scope.
|
||||
|
||||
## How it stays solid
|
||||
|
||||
- **Token renewal** every ~45 s keeps the session alive.
|
||||
- **Receive-side retransmit**: under the heavy panadapter stream, lost UDP
|
||||
packets are re-requested, so the link doesn't drop when the scope is on.
|
||||
- **Standby-tolerant**: the radio's server answers pings even when the radio is
|
||||
off, so the session doesn't flap — the console + power ON button stay reachable.
|
||||
- **Manual power** ON / OFF (the app never wakes the rig on connect).
|
||||
|
||||
## Audio
|
||||
|
||||
Network **audio** is a work in progress. For now, use the radio in **USB + a
|
||||
voice link** (e.g. Mumble) alongside the network CAT, or run OpsLog on the
|
||||
station PC via remote desktop. See [[Audio and Keyers]] for the USB-monitor
|
||||
option.
|
||||
|
||||
## Troubleshooting
|
||||
|
||||
- **"Login rejected"** → wrong Network User1 name/password.
|
||||
- **Can't bind local port / dial fails** → the Icom **Remote Utility** is still
|
||||
running; close it.
|
||||
- **Link drops when the scope turns on** → should be fixed by receive-side
|
||||
retransmit; if it persists, check the log (`icom net:` lines) and network
|
||||
quality. See [[Troubleshooting]].
|
||||
@@ -0,0 +1,24 @@
|
||||
# Security
|
||||
|
||||
## Secret vault
|
||||
|
||||
Opt-in **passphrase encryption** of the stored passwords (QRZ, cluster, eQSL,
|
||||
SMTP, Icom network, etc.) using **AES-GCM + PBKDF2**.
|
||||
|
||||
- Enable it in Settings; you set a passphrase.
|
||||
- Encrypted values are marked `enc:v1:` and are **portable** (they travel with
|
||||
the `data/` folder).
|
||||
- A single **unlock prompt at launch** decrypts them for the session.
|
||||
|
||||
If you forget the passphrase, the encrypted secrets can't be recovered — re-enter
|
||||
them.
|
||||
|
||||
## What OpsLog sends where
|
||||
|
||||
- **Callsign lookups** go to QRZ.com / HamQTH with your credentials.
|
||||
- **QSL uploads/downloads** go to the services you configure (LoTW via TQSL, QRZ,
|
||||
eQSL, ClubLog, HRDLog).
|
||||
- **Telemetry** is a once-a-day anonymous heartbeat (random install ID + version
|
||||
+ OS — no callsign, no QSO data). Opt out in Preferences.
|
||||
- Everything else stays local (or on your own MySQL / web server for the
|
||||
multi-op live status).
|
||||
@@ -0,0 +1,51 @@
|
||||
# Settings and Data
|
||||
|
||||
## Where everything lives
|
||||
|
||||
A `data/` folder is created **next to `OpsLog.exe`**:
|
||||
|
||||
- **Config** (SQLite): settings, profiles, rigs/antennas, cluster nodes, lookup
|
||||
cache, award lists, QSL templates. Always local, so the UI is instant.
|
||||
- **Local logbook** (SQLite): QSOs, when the profile logs locally.
|
||||
- `data/qsl/templates/…` — QSL card templates and their photos.
|
||||
- `data/qsl/outbox/…` — sent QSL card JPEGs.
|
||||
- Recordings folder (configurable) — per-QSO WAV/MP3.
|
||||
- Backups.
|
||||
|
||||
Back up your setup by copying `data/` (and keep it with the exe). See
|
||||
[[Profiles and Databases]] for local-vs-MySQL logbooks.
|
||||
|
||||
## Settings map
|
||||
|
||||
| Section | What |
|
||||
|---------|------|
|
||||
| **General** | language, theme, Main-view panes, live-status publish |
|
||||
| **Station** | your callsign, grid, name, address (my-station ADIF) |
|
||||
| **CAT** | radio backend + connection ([[CAT Control]]) |
|
||||
| **Lookup** | QRZ.com / HamQTH credentials |
|
||||
| **FlexRadio** | per-band RX/TX antennas |
|
||||
| **Audio** | DVK / recorder devices, PTT, gains, RX monitor |
|
||||
| **CW Keyer** | WinKeyer / Icom / TCI engine + macros |
|
||||
| **External services** | LoTW (TQSL), QRZ, eQSL, ClubLog, HRDLog, POTA |
|
||||
| **Email** | SMTP for eQSL-by-email |
|
||||
| **PowerGenius / Antenna Genius / Rotator / Ultrabeam** | station hardware |
|
||||
| **Backup** | database + ADIF backup at shutdown |
|
||||
|
||||
## Appearance & language
|
||||
|
||||
Four themes (Warm light, Warm dark, Graphite dark, High contrast) plus **Auto**
|
||||
(follows the OS). Full **English / French** UI with a first-run flag chooser and
|
||||
a switcher in Settings → General.
|
||||
|
||||
## Integrations (outbound UDP)
|
||||
|
||||
Push the current frequency to **PstRotator**, radio info in **N1MM `RadioInfo`**
|
||||
format, or an **ADIF record on each logged QSO** — so external tools stay in sync.
|
||||
|
||||
## Other
|
||||
|
||||
- **Autostart** external programs (WSJT-X, JTAlert, rotator control…) at launch,
|
||||
skipping any already running.
|
||||
- **Update check** at startup (toggleable).
|
||||
- **Anonymous usage telemetry** — a once-a-day heartbeat (random install ID +
|
||||
version + OS; no callsign or QSO data). Opt out in Preferences.
|
||||
@@ -0,0 +1,58 @@
|
||||
# Troubleshooting
|
||||
|
||||
## Where's the log file?
|
||||
|
||||
OpsLog writes a diagnostic log. The path is shown in Settings (and can be opened
|
||||
from there). When reporting a problem, include the relevant lines — they're
|
||||
prefixed by subsystem (`Flex:`, `icom net:`, `icom scope`, `antgenius:`,
|
||||
`cluster:`, `qslmgr:log`, `audio:`…).
|
||||
|
||||
## CAT
|
||||
|
||||
- **Radio not connecting** — check the backend fields (COM port + baud for USB;
|
||||
IP/credentials for network). OpsLog connects non-blocking, so it won't freeze —
|
||||
watch the CAT status.
|
||||
- **Icom: no CAT at all over USB** — the CI-V address must match the radio; pick
|
||||
your **model** from the dropdown (it sets the address) and set *CI-V USB Echo
|
||||
Back* **OFF** on the rig.
|
||||
- **Icom scope blank on an IC-7300** — this was a bug where the scope decoder was
|
||||
chosen from the configured CI-V address; it now uses the model detected from the
|
||||
CI-V ID, so a single-scope rig run at address `0x98` decodes correctly. Update
|
||||
to the latest build.
|
||||
- **Icom attenuator button does nothing** — the dB steps are model-specific; make
|
||||
sure the right model is selected (IC-7300 = 20 dB, IC-7610 = 6/12/18 dB).
|
||||
|
||||
## Remote Icom
|
||||
|
||||
- **Login rejected** → wrong Network User1 name/password.
|
||||
- **Can't bind local port** → the Icom **Remote Utility is still running** —
|
||||
close it.
|
||||
- **Link drops with the scope on** → receive-side retransmit should hold it; if
|
||||
not, check network quality and the `icom net:` log lines. See
|
||||
[[Remote Icom over the Internet]].
|
||||
|
||||
## FlexRadio
|
||||
|
||||
- **A control reads 0 / stale at startup** — some SmartSDR status fields use short
|
||||
names (e.g. the TX filter is reported as `lo`/`hi`, not `filter_low/high`). If a
|
||||
value never populates, capture the `Flex: … status` log line and report it.
|
||||
- **Antenna wrong band on a spot click** — fixed: `SetFrequency`/`SetMode` update
|
||||
the slice cache immediately so the panel and the Ultrabeam follow don't chase a
|
||||
stale frequency.
|
||||
|
||||
## Multi-op live status PHP
|
||||
|
||||
`Connection refused` from the PHP page is almost always MySQL `bind-address =
|
||||
127.0.0.1` or a firewall/grant issue — see
|
||||
[[Multi-Operator Live Status]].
|
||||
|
||||
## DVK / PTT
|
||||
|
||||
- **Test PTT does nothing on CAT/OmniRig** — the key is held ~1.5 s so the async
|
||||
OmniRig write is actually sent; if it still doesn't key, the rig's OmniRig
|
||||
profile may not expose CAT TX keying — use RTS/DTR or VOX.
|
||||
|
||||
## Still stuck?
|
||||
|
||||
Open an issue with: what you did, what happened, your radio/model, and the
|
||||
relevant log lines.
|
||||
@@ -0,0 +1,2 @@
|
||||
---
|
||||
**OpsLog** — a modern ham-radio logger by **F4BPO** · [Home](Home) · [Troubleshooting](Troubleshooting) · A French README is in `README.fr.md`.
|
||||
@@ -0,0 +1,37 @@
|
||||
### OpsLog Wiki
|
||||
|
||||
**Start here**
|
||||
- [[Home]]
|
||||
- [[Installation]]
|
||||
- [[Getting Started]]
|
||||
|
||||
**Logging**
|
||||
- [[Logging Basics]]
|
||||
- [[Recent QSOs and Filters]]
|
||||
- [[Import and Export ADIF]]
|
||||
- [[Profiles and Databases]]
|
||||
|
||||
**Radio control (CAT)**
|
||||
- [[CAT Control]]
|
||||
- [[FlexRadio]]
|
||||
- [[Icom]]
|
||||
- [[Remote Icom over the Internet]]
|
||||
|
||||
**Operating**
|
||||
- [[DX Cluster and Spots]]
|
||||
- [[Maps and Antennas]]
|
||||
- [[Amplifiers and Switches]]
|
||||
- [[Audio and Keyers]]
|
||||
- [[Contest Logging]]
|
||||
- [[Net Control]]
|
||||
- [[Multi-Operator Live Status]]
|
||||
|
||||
**QSL & Awards**
|
||||
- [[Awards]]
|
||||
- [[QSL Management]]
|
||||
- [[QSL Card Designer]]
|
||||
|
||||
**Reference**
|
||||
- [[Settings and Data]]
|
||||
- [[Security]]
|
||||
- [[Troubleshooting]]
|
||||
Reference in New Issue
Block a user